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DEPARTMENT of PHYSICS
NO	NAME	LINK ACADSTAFF
1	Karyono	https://prisma.simaster.ugm.ac.id/karyono
2	Sismanto	https://prisma.simaster.ugm.ac.id/sismanto
3	Agung Bambang Setio Utomo	https://prisma.simaster.ugm.ac.id/MTk1ODA1MDIxOTg0MDMxMDAz
4	Pekik Nurwantoro	https://prisma.simaster.ugm.ac.id/pekiknurwantoro
5	Harsojo	https://prisma.simaster.ugm.ac.id/MTk1ODA0MDkxOTg1MDIxMDAx
6	Gede Bayu Suparta	https://prisma.simaster.ugm.ac.id/gbsuparta
7	Arief Hermanto	https://prisma.simaster.ugm.ac.id/ahermanto
8	Moh. Ali Joko wasono	https://prisma.simaster.ugm.ac.id/alijoko
9	Wahyudi	https://prisma.simaster.ugm.ac.id/wahyudi
10	Wagini	https://prisma.simaster.ugm.ac.id/wagini
11	M. Farchani Rosyid	https://prisma.simaster.ugm.ac.id/farchanirosyid
12	Sunarta	https://prisma.simaster.ugm.ac.id/sunarta
13	Bambang Murdaka Eka Jati	https://prisma.simaster.ugm.ac.id/murdaka
14	Kuwat Triyana	https://prisma.simaster.ugm.ac.id/triyana
15	Mitrayana	https://prisma.simaster.ugm.ac.id/mitrayana
16	Yusril Yusuf	https://prisma.simaster.ugm.ac.id/yusrilyusuf
17	Budi Eka Nurcahya	https://prisma.simaster.ugm.ac.id/budieka
18	Wiwit Suryanto	https://prisma.simaster.ugm.ac.id/wiwit
19	Imam Suyanto	https://prisma.simaster.ugm.ac.id/imamsuyanto
20	Rinto Anugroho NQZ	https://prisma.simaster.ugm.ac.id/rinto
21	Fahrudin Nugroho	https://prisma.simaster.ugm.ac.id/fakhrudin
22	Chotimah	https://prisma.simaster.ugm.ac.id/chotimah
23	Ari Setiawan	https://prisma.simaster.ugm.ac.id/MTk2NTExMjcxOTkxMDMxMDEz
24	Mirza Satriawan	https://prisma.simaster.ugm.ac.id/mirza72
25	Juliasih Partini	https://prisma.simaster.ugm.ac.id/juliasih
26	Dwi Satya Palupi	https://prisma.simaster.ugm.ac.id/palupi
27	Yosef Robertus Utomo	https://prisma.simaster.ugm.ac.id/yosefutomo
28	Eko Sulistya	https://prisma.simaster.ugm.ac.id/sulistya
29	Ikhsan Setiawan	https://prisma.simaster.ugm.ac.id/ikhsan
30	Sudarmaji	https://prisma.simaster.ugm.ac.id/sudarmaji
31	Eddy Hartantyo	https://prisma.simaster.ugm.ac.id/hartantyo
32	Iman Santosa	https://prisma.simaster.ugm.ac.id/imansantosa
33	Ahmad Kusumaatmaja	https://prisma.simaster.ugm.ac.id/MTk4MzA3MjIyMDE0MDQxMDAx
34	Edi Suharyadi	https://prisma.simaster.ugm.ac.id/esuharyadi
35	Mochamad Nukman	https://prisma.simaster.ugm.ac.id/nukman
36	Romy Hanang Setya Budhi	https://prisma.simaster.ugm.ac.id/romy.hanang
37	Sintia Windhi Niasari	https://prisma.simaster.ugm.ac.id/MTk4MjA5MjEyMDA4MTIyMDAx
38	Muhammad Darwis Umar	https://prisma.simaster.ugm.ac.id/MTk3NzA0MTgyMDEwMTIxMDAx
39	Moh. Adhib Ulil Absor	https://prisma.simaster.ugm.ac.id/Adhib
40	Elida Lailiya Istiqomah	https://prisma.simaster.ugm.ac.id/OTkwMDAwMjA1
41	Muhammad Arifin	https://prisma.simaster.ugm.ac.id/Arifin_Fisika
42	Eko Tri Sulistyani	https://prisma.simaster.ugm.ac.id/ekotrisulistyani
43	Waskito Nugroho	https://prisma.simaster.ugm.ac.id/waskitonugroho
44	Ade Anggraini	https://prisma.simaster.ugm.ac.id/anggraini
45	Ari Dwi Nugraheni	https://prisma.simaster.ugm.ac.id/OTkwMDAwMDg4
46	Sholihun	https://prisma.simaster.ugm.ac.id/MTEyMDEyMDA0Ng==
47	Afif Rakhman	https://prisma.simaster.ugm.ac.id/Afif
48	Herlan Darmawan	https://prisma.simaster.ugm.ac.id/Herlan
49	Theodosius Marwan Irnaka	https://prisma.simaster.ugm.ac.id/MTEyMDE2MDA2NQ==
50	Chalis Setyadi	https://prisma.simaster.ugm.ac.id/Chalis
51	Devy Pramudyah Wardani	https://prisma.simaster.ugm.ac.id/Devy
52	Idham Syah Alam	https://prisma.simaster.ugm.ac.id/Idham
53	Ibnu Jihad
54	Adam Sukma Putra

 

DEPARTMENT of CHEMISTRY
NO	NAME	LINK ACADSTAFF
1	Triyono	https://prisma.simaster.ugm.ac.id/3ono
2	Mudasir	https://prisma.simaster.ugm.ac.id/Mudasir
3	Nuryono	https://prisma.simaster.ugm.ac.id/nuryono
4	Wega Trisunaryanti	https://prisma.simaster.ugm.ac.id/MTk2MzEwMjgxOTg4MDMyMDAx
5	Iip Izul Falah	https://prisma.simaster.ugm.ac.id/MTk1MzAyMjMxOTgxMDMxMDA1
6	Bambang Rusdiarso	https://prisma.simaster.ugm.ac.id/MTk1NDAzMTYxOTgwMDMxMDAx
7	Harno Dwi Pranowo	https://prisma.simaster.ugm.ac.id/Harnodp
8	Endang Tri Wahyuni	https://prisma.simaster.ugm.ac.id/MTMxNzY3MTg1
9	Jumina	https://prisma.simaster.ugm.ac.id/MTk2NTA1MDYxOTg5MDMxMDAy
10	Karna Wijaya	https://prisma.simaster.ugm.ac.id/MTk2MzEyMDcxOTg4MDMxMDAx
11	Sri Juari Santosa	https://prisma.simaster.ugm.ac.id/MTk2NTAxMDgxOTg5MDMxMDAx
12	Iqmal Tahir	https://prisma.simaster.ugm.ac.id/iqmal
13	Chairil Anwar	https://prisma.simaster.ugm.ac.id/MTk1NDAxMTgxOTc3MDIxMDAx
14	Winarto Haryadi	https://prisma.simaster.ugm.ac.id/MTk2ODExMjYxOTk1MTIxMDAx
15	Priatmoko	https://prisma.simaster.ugm.ac.id/MTk1NjEyMTMxOTg0MDMxMDAx
16	Suyanta	https://prisma.simaster.ugm.ac.id/MTk2MDAyMjgxOTg4MDMxMDAy
17	Bambang Purwono	https://prisma.simaster.ugm.ac.id/BP
18	Ani Setyopratiwi	https://prisma.simaster.ugm.ac.id/MTk2MjExMjUxOTg5MDMyMDAx
19	Sutarno	https://prisma.simaster.ugm.ac.id/MTk2MTA4MTYxOTg4MDMxMDAy
20	Eko Sri Kunarti	https://prisma.simaster.ugm.ac.id/MTk2NDEwMjQxOTg5MDMyMDAy
21	Tutik Dwi Wahyuningsih	https://prisma.simaster.ugm.ac.id/MTk2NDAxMjMxOTg4MDMyMDAx
22	Tri Joko Raharjo	https://prisma.simaster.ugm.ac.id/MTk3MzA2MTIxOTk5MDMxMDAy
23	Indriana Kartini	https://prisma.simaster.ugm.ac.id/MTk2OTA0MjExOTk4MDMyMDAy
24	Nurul Hidayat Aprilita	https://prisma.simaster.ugm.ac.id/nurul.hidayat
25	Agus Kuncaka	https://prisma.simaster.ugm.ac.id/MTk2MjA4MzAxOTg3MDMxMDAx
26	Dwi Siswanta	https://prisma.simaster.ugm.ac.id/dsiswanta
27	Adhitasari Suratman	https://prisma.simaster.ugm.ac.id/MTk3NjEwMDIyMDAyMTIyMDAx
28	Roto	https://prisma.simaster.ugm.ac.id/Roto
29	Sri Sudiono	https://prisma.simaster.ugm.ac.id/MTk3MjA0MDIxOTk5MDMxMDAy
30	Respati Tri Swasono	https://prisma.simaster.ugm.ac.id/MTk3NDA0MjUxOTk5MDMxMDAy
31	Endang Astuti	https://prisma.simaster.ugm.ac.id/MTk2ODEyMjMxOTk3MDIyMDAx
32	Deni Pranowo	https://prisma.simaster.ugm.ac.id/MTk3MzA5MTQyMDAyMTIxMDAy
33	Akhmad Syoufian	https://prisma.simaster.ugm.ac.id/akhmadsyoufian
34	Suherman	https://prisma.simaster.ugm.ac.id/MTk4MDA5MTYyMDA5MTIxMDAz
35	Mokhammad Fajar Pradipta	https://prisma.simaster.ugm.ac.id/MTk3NjExMjAyMDAyMTIxMDAy
36	Taufik Abdillah Natsir	https://prisma.simaster.ugm.ac.id/tanatsir
37	M. Idham Darussalam Mardjan	https://prisma.simaster.ugm.ac.id/MTk4OTA3MTcyMDE0MDQxMDAx
38	Fajar Inggit Pambudi
39	Sugeng Triono	https://prisma.simaster.ugm.ac.id/MTk3NDAzMjAyMDAyMTIxMDAx
40	Robby Noor Cahyono	https://prisma.simaster.ugm.ac.id/robby
41	Adhi Dwi Harmanto
42	Niko Prasetyo	https://prisma.simaster.ugm.ac.id/MTEyMDE2MDA3MQ==
43	Aulia Sukma Hutama	https://prisma.simaster.ugm.ac.id/auliahutama
44	Aulia Ratri Hapsari	https://prisma.simaster.ugm.ac.id/auliaratri

 

DEPARTMENTS of MATHEMATICS
NO	NAME	LINK ACADSTAFF
1	Sri Haryatmi	https://prisma.simaster.ugm.ac.id/MTk1NDEyMjQxOTc2MDMyMDAy
2	Subanar	https://prisma.simaster.ugm.ac.id/MTk1MTA4MzExOTc0MTIxMDAx
3	Sri Wahyuni	https://prisma.simaster.ugm.ac.id/swahyuni
4	Widodo	https://prisma.simaster.ugm.ac.id/MTk2MjEwMzExOTg5MDMxMDAy
5	Dedi Rosadi	https://prisma.simaster.ugm.ac.id/dedirosadi
6	Ch. Rini Indrati	https://prisma.simaster.ugm.ac.id/MTk2NzExMDYxOTkxMDMyMDAx
7	Supama	https://prisma.simaster.ugm.ac.id/MTk2NzA5MDUxOTkyMDMxMDAx
8	Indah Emilia Wijayanti	https://prisma.simaster.ugm.ac.id/indahewijayanti
9	Zulaela	https://prisma.simaster.ugm.ac.id/MTk1OTAzMTExOTgzMDMxMDA0
10	Diah Junia Eksi Palupi	https://prisma.simaster.ugm.ac.id/MTk1NTA2MTYxOTgxMDEyMDAx
11	Lina Aryati	https://prisma.simaster.ugm.ac.id/MTk2NTA1MjcxOTg5MDMyMDAx
12	Budi Surodjo	https://prisma.simaster.ugm.ac.id/MTk2NTExMjYxOTkxMDMxMDAx
13	Salmah	https://prisma.simaster.ugm.ac.id/MTk2NDA2MTUxOTkxMDMyMDAx
14	Abdurakhman	https://prisma.simaster.ugm.ac.id/Rakhman
15	Gunardi	https://prisma.simaster.ugm.ac.id/gunardi
16	Ari Suparwanto	https://prisma.simaster.ugm.ac.id/ari.suparwanto
17	Sumardi
18	Atok Zulijanto	https://prisma.simaster.ugm.ac.id/MTk3MTA2MDUxOTk4MDMxMDAz
19	Indarsih	https://prisma.simaster.ugm.ac.id/MTk3NDA4MjgxOTk5MDMyMDAy
20	Sutopo	https://prisma.simaster.ugm.ac.id/MTk3MjAyMTcxOTk4MDMxMDAx
21	Danardono	https://prisma.simaster.ugm.ac.id/MTk2ODA5MTkxOTk0MTIxMDAx
22	Imam Solekhudin	https://prisma.simaster.ugm.ac.id/MTk3OTAyMjAyMDAyMTIxMDAx
23	Herni Utami	https://prisma.simaster.ugm.ac.id/MTk3NDAxMTQyMDAyMTIyMDAx
24	Adhitya Ronnie Effendie	https://prisma.simaster.ugm.ac.id/adhityaronnie
25	Fajar Adi Kusumo	https://prisma.simaster.ugm.ac.id/fajaradi
26	Yeni Susanti	https://prisma.simaster.ugm.ac.id/yeni
27	Solikhatun	https://prisma.simaster.ugm.ac.id/MTk4MDAzMTQyMDA1MDEyMDAy
28	Al. Sutjijana	https://prisma.simaster.ugm.ac.id/MTk2MTExMDQxOTg3MDMxMDAx
29	Dwi Ertiningsih	https://prisma.simaster.ugm.ac.id/Ertiningsih
30	Umi Mahnuna Hanung	https://prisma.simaster.ugm.ac.id/Bu%20Hanung
31	Danang Teguh Qoyyimi	https://prisma.simaster.ugm.ac.id/qoyyimi
32	Irwan Endrayanto	https://prisma.simaster.ugm.ac.id/endrayanto
33	Yunita Wulan Sari	https://prisma.simaster.ugm.ac.id/MTk4MzA2MTYyMDEwMTIyMDAx
34	Nur Khusnussa’adah	https://prisma.simaster.ugm.ac.id/OTkwMDAwMDg1
35	Nanang Susyanto	https://prisma.simaster.ugm.ac.id/NanangSusyanto
36	Vemmie Nastiti Lestari	https://prisma.simaster.ugm.ac.id/MTk4ODExMTQyMDE0MDQyMDAx
37	Uha Isnaini	https://prisma.simaster.ugm.ac.id/Uha
38	Hadrian Andradi	https://prisma.simaster.ugm.ac.id/OTkwMDAwMjg1
39	Rianti Siswi Utami	https://prisma.simaster.ugm.ac.id/MTk4ODA1MjQyMDE1MDQyMDAx
40	Dewi Kartika Sari	https://prisma.simaster.ugm.ac.id/MTEyMDEyMDA0OA==
41	Noorma Yulia Megawati	https://prisma.simaster.ugm.ac.id/NoormaMegawati
42	Zenith Purisha
43	Rudi Adha Prihandoko	https://prisma.simaster.ugm.ac.id/Rudi
44	Ari Dwi Hartanto	https://prisma.simaster.ugm.ac.id/ari
45	Rika Fitriani	https://prisma.simaster.ugm.ac.id/MTEyMDE2MDA3NA==
46	Sekar Nugraheni	https://prisma.simaster.ugm.ac.id/Sekar%20Nugraheni
47	Iwan Ernanto	https://prisma.simaster.ugm.ac.id/iwan
48	Made Tantrawan
49	Rahmasari Nur Azizah
50	Made Benny Prasetya Wiranata
51	Ivan Luthfi Ihwani

 

DEPARTMENT of COMPUTER SCIENCE AND ELECTRONICS
NO	NAME	LINK ACADSTAFF
1	Jazi Eko Istiyanto	https://prisma.simaster.ugm.ac.id/jazi
2	Sri Hartati	https://prisma.simaster.ugm.ac.id/srihartati
3	Azhari	https://prisma.simaster.ugm.ac.id/MTk2MjA5MjAxOTg5MDMxMDAy
4	Tri Kuntoro Priyambodo	https://prisma.simaster.ugm.ac.id/mastri
5	Ahmad Ashari	https://prisma.simaster.ugm.ac.id/ashari
6	Agus Harjoko	https://prisma.simaster.ugm.ac.id/aharjoko
7	Suprapto	https://prisma.simaster.ugm.ac.id/MTk2NDAxMjQxOTg4MDMxMDAx
8	Edi Winarko	https://prisma.simaster.ugm.ac.id/edwin
9	Sri Mulyana	https://prisma.simaster.ugm.ac.id/MTk2ODA0MzAxOTk1MTIxMDAx
10	Nur Rokhman	https://prisma.simaster.ugm.ac.id/MTk3MTA0MTYxOTk3MDIxMDAx
11	Retantyo Wardoyo	https://prisma.simaster.ugm.ac.id/MTk1OTAzMTExOTgzMDMxMDA1
12	Medi	https://prisma.simaster.ugm.ac.id/MTk2NzA1MTMxOTk1MTIxMDAx
13	Yohanes Suyanto	https://prisma.simaster.ugm.ac.id/yanto
14	Abdul Ro’uf	https://prisma.simaster.ugm.ac.id/rouf
15	Anifuddin Aziz	https://prisma.simaster.ugm.ac.id/MTk3NzA1MjAyMDAyMTIxMDAy
16	Agfianto Eko Putra	https://prisma.simaster.ugm.ac.id/agfi68
17	Khabib Mustofa	https://prisma.simaster.ugm.ac.id/Khabb
18	Danang Lelono	https://prisma.simaster.ugm.ac.id/danang
19	MHD. Reza MI Pulungan	https://prisma.simaster.ugm.ac.id/reza
20	Raden Sumiharto	https://prisma.simaster.ugm.ac.id/sumiharto
21	Janoe Hendarto	https://prisma.simaster.ugm.ac.id/MTk2MzAxMDkxOTg4MDMxMDAx
22	Bambang Nurcahyo Prastowo	https://prisma.simaster.ugm.ac.id/bnp
23	Agus Sihabuddin	https://prisma.simaster.ugm.ac.id/MTk3NjA4MTAyMDAyMTIxMDAz
24	Sigit Priyanta	https://prisma.simaster.ugm.ac.id/seagatejogja
25	Aina Musdholifah	https://prisma.simaster.ugm.ac.id/MTk4MDExMTIyMDA1MDEyMDAy
26	Ilona Usuman	https://prisma.simaster.ugm.ac.id/ilona
27	Anny Kartika Sari	https://prisma.simaster.ugm.ac.id/MTk3NzA0MDUyMDAyMTIyMDAx
28	I Gede Mujiyatna	https://prisma.simaster.ugm.ac.id/MTk3OTA0MTgyMDA1MDExMDA0
29	M. Idham Ananta Timur	https://prisma.simaster.ugm.ac.id/idhamananta
30	Triyogatama Wahyu Widodo	https://prisma.simaster.ugm.ac.id/yogatama
31	Andi Dharmawan	https://prisma.simaster.ugm.ac.id/MTk4NDA5MTQyMDEyMTIxMDAx
32	Faizah	https://prisma.simaster.ugm.ac.id/MTk4NDA5MTIyMDE0MDQyMDAx
33	Bakhtiar Alldino Ardi Sumbodo	https://prisma.simaster.ugm.ac.id/alldino
34	Lukman Heryawan	https://prisma.simaster.ugm.ac.id/MTk4MDEwMzEyMDE1MDQxMDAx
35	Arif Nurwidyantoro	https://prisma.simaster.ugm.ac.id/arifn
36	Moh. Edi wibowo	https://prisma.simaster.ugm.ac.id/MTk4MTA5MjgyMDA1MDExMDAx
37	Afiahayati	https://prisma.simaster.ugm.ac.id/MTEyMDExMDA0Mw==
38	Mardhani Riasetiawan	https://prisma.simaster.ugm.ac.id/mardhaniriasetiawan
39	Yunita Sari	https://prisma.simaster.ugm.ac.id/yunitasari
40	Faizal Makhrus	https://prisma.simaster.ugm.ac.id/OTkwMDAwMDc5
41	Nia Gella Augoestien	https://prisma.simaster.ugm.ac.id/OTkwMDAwMjc4
42	Catur Atmaji	https://prisma.simaster.ugm.ac.id/catur.a
43	Ika Candra Dewi	https://prisma.simaster.ugm.ac.id/IkaCandra
44	Isna Alfi Bustoni	https://prisma.simaster.ugm.ac.id/isna
45	Guntur Budi Herwanto	https://prisma.simaster.ugm.ac.id/gunturbudi
46	Roghib Muhammad Hujja
47	Aufaclav Zatu Kusuma Frisky
48	Tri Wahyu Supardi	https://prisma.simaster.ugm.ac.id/OTkwMDAwMDk1
49	Wahyono	https://prisma.simaster.ugm.ac.id/wahyo
50	Lukman Awaludin	https://prisma.simaster.ugm.ac.id/lukman
51	Nur Achmad Sulistyo Putro	https://prisma.simaster.ugm.ac.id/nurachmadsp
52	Oskar Natan
53	Diyah Utami Kusumaning Putri
54	Muh. Alfian Amrizal

Brief Description of Doctoral Program in Physics in UGM

 

RESEARCH AT PHYSICS DOCTORAL DEGREE STUDY PROGRAM IN UGM:

The Doctoral Program in Physics was established with the aim to produce doctoral degree graduates in the field of Physics who possess integrity and dedication towards the development of physics, both fundamental physics and applied physics, working both theoretically and experimentally / observationally. This is reflected in the research themes undertaken by the teaching staffs which are categorized into four Fields of Expertise Groups (KBK) in the Department of Physics, Faculty of Mathematics and Natural Sciences UGM as follows:

 

Researches at KBK Theoritic and Computational Physics (Coordinator; Dr Dwi Satya Palupi):

1. The study of complex systems, various objects’ system, and strongly correlated systems using numerical computational high-end computing (finite difference, finite element, density matrix renormalization group / DMRG) and stochastics (Monte-Carlo method), including the potential to develop algorithms or quantum computing protocols. Physical systems are examined, ranging from complex atomic systems to condensed matter. (Pekik Nurwantoro, M.S., Ph.D, Dr. Arief Hermanto)
2. General relativity and special relativity, Philosophy of Physics (Dr.Arief Hemanto,S.U., M.Sc)
3. Mathematical Physics (Dr.rer.nat. Muhammad Farchani Rosyid):
4. Applying the fundamental principles of physics to understand natural phenomena:

Mathematical formulation of basic principles to understand the behavior of natural phenomena and to design and plan natural phenomena (e.g. applying differential geometry and stochastic processes to understand bio locomotion such as the motion of fish, snake boards, tip top, yarn spinning process, etc.)

1. Development or generalization of mathematical formulations that presents natural phenomena including:

Development of mathematical foundations for quantum mechanics (e.g. advanced mathematical formulations for quantum mechanics and quantum field theory). Direct method in the calculus of variations and its applications in various fields of physics (e.g. the search for a minimizer of a direct functional method and its application in crystal and quantum dot physics). Developing a formulation of relativistic stochastic processes in curved spacetime (for example: general relativistic diffusion processes and their application in cosmology and astrophysics)

1. Geometric simplicity study on teleparallel gravitational fields and graviton electromagnetism and their quantification through geometric amplification and deformation quantification.
2. Study the effects of taking exotic differential structures on the formulation of physical theories (e.g. in stochastic processes on topological space and on the formulation of spacetime).
3. Study the use of basic principles in physics to solve problems in economics (Dr. Dwi Satya Palupi)

 

1. Financial market studies with stochastic processes and quantum mechanics
2. Wealth distribution with non-extensive mechanics

 

13. The Standard Model and its problems and development (Mirza Satriawan, PhD):
    1. Searching for a good and consistent particle physics and cosmology models which can explain aspects of particle physics that reach beyond the boundaries of standard models: neutrinos mass, dark energy, dark matter, baryon-anti-baryon asymmetry, inflation, etc.
    2. Neutrino Physics: examined see-saw models for neutrino masses, neutrino mass matrix models, extended standard models in order to accommodate neutrino masses
    3. Mirror symmetry models in particle physics: left-right symmetry models as an extension to the standard model, a modified mirror model coupled with various possible models as a model for dark matter, research on mirror symmetry models in particle physics will be developed, specifically related to dark matter.
14. Sociophysics, nonlinear physics, opinion dynamics (Dr.Eng.Rinto Anugraha NQZ,S.Si .,M.Si)
15. Electronic structure computation on 2D emergent materials, Design and synthesis of 2D emergent materials, Spectroscopy (Dr. Iman Santoso,M.Sc):
16. Computation of electronic structures on 2D emergent materials such as graphene, transition metal dicalogenogen (TMD), cuprates, oxide electronics, and strongly correlated electron materials using the Tight Binding Time Propagation Method.
17. Spectroscopy studies using ARPES (Angle Resolved Photoemission Spectroscopy) and Optical Spectroscopy (Ellipsometry, Transmittance, Photoluminescence, Raman) to understand the electronic structure of emergent / novel materials and their applications in the field of energy (Organic Solar Cells, Supercapacitors, Thermoelectric, Superconductors) and sensors.
18. Design and synthesis of 2D emergent materials for organic optoelectronics and sensors using various methods such as CVD (chemical vapor deposition), vacuum evaporation and wet-chemistry.
19. Experimental and computational nonlinear physics (Dr. Eng Fahrudin Nugroho, S.Si.,M.Si):
20. Modified gravity model on Planck energy scale that interacts non-minimally with matter (Romy Hanang Setya budhi,S.Si.,M.Sc.,Ph.D):
21. To discover the universe’s inflation model in its birth stage that could explain the observation of microwave background radiation
22. Developing an inflation model that has been obtained to be able to explain another BSM. Scenarios that have been thought of includes adapting the model obtained into the radiative neutrino mass model which explains many BSM phenomena quite well.
23. The universe’s inflation phase model based on the modified F (R) -gravity theory and on the non-minimal interactions between the gravitational and material sectors, including the potential to explain the relationship between the two approaches as well as its potential to explain other beyond standard model phenomena such as: dark energy, dark matter, and neutrinos mass.
24. Medical Physics, collaboration with Prof. Dr. Agung Bambang Setyo Utomo. (Dr.Yosef Robertus Utomo,S.U)
25. Defective materials computation and molecular dynamics simulation (Sholihun, S.Si., M.Sc., Ph.D):
26. Structural, electronic, and phonon properties of defective materials: the density-functional-theory simulation. (2D: graphene. Silicene, germanene, hBN, 2D-SiC etc. 3D: Diamond and diamond-like materials: diamond, SiC, alpha-thin, germanium, etc). Collaboration with Mr. Pekik, Dr.  Iman Santoso, and Dr.    A.  Ulil Absor
27. Molecular dynamics simulation of Cytochrome-C (hemeprotein associated with the inner membrane of the mitochondrion). collaboration with Dr. Ari Dwi Nugraheni
28. The structure of matter in neutron stars using liquid drip model (Dra.Eko Tri Sulistyani.M.Sc.)
29. Radio astronomy: an interstellar medium (Elida Layla Istiqomah, M.Sc.)

 

Research Collaboration Collaboration with BATAN to support researches of researchers in BATAN

• Compact Neutron Generator design to support Mo production research that is conducted with colleagues at BATAN.
• Collimator design to support BNCT research

Members of Theoretical and Computational Physics KBK:

1. Pekik Nurwantoro
2. Arief Hermanto
3. rer. nat. Muhammad Farchani Rosyid
4. Dwi Satya Palupi
5. Mirza Satriawan
6. Eng.Rinto Anugraha NQZ,S.Si .,M.Si
7. Iman Santoso,M.Sc
8. Eng Fahrudin Nugroho, S.Si.,M.Si
9. Romy Hanang Setya budhi,S.Si.,M.Sc.,Ph.D
10. Yosef Robertus Utomo,S.U
11. Sholihun,S.Si.,M.Sc.,Ph.D
12. Eko Tri Sulistyani.M.Sc
13. Elida Layla Istiqomah, M.Sc

 

 Researches at Applied Physics KBK (Coordinator : Dr. Gede Bayu Suparta):

Research offered by Applied Physics KBK mainly covers the application of Photonics (Image and Spectrometry Physics) in the fields of material analysis, nondestructive testing, medical diagnosis, product quality control, rapid inspection on critical systems, field measurements, tele-inspection / tele radiology, safety, and security. The purpose of the applications may include a variety of specific themes such as health and pharmaceutical drugs, defense and security, food safety, environmental science, energy and minerals, maritime affairs, transportation and logistics, and component industries:

 

1. The process of imaging and spectroscopy using electromagnetic waves such as x-ray, visible light (UV-Vis), laser, sonic and ultrasonic. The techniques developed include 2D, 3D and 4D imaging, with focus on system development, performance testing, measurement that are in accordance to the actual environmental conditions, calibration and validation of the measurement results. Image Physics which includes Digital Radiography for medicine, industry and material analysis.
2. Computed Tomography for industrial applications and material analysis.
3. Imaging system for various non-destructive testing and medical diagnostic purposes, including 3D / 4D imaging.
4. Laser photoacoustic for food, post-harvest, and medicine.
5. Photoacoustic tomography for early diagnosis in the field of medicine and food quality test.
6. Optical Coherence Tomography for structure imaging under the surface of thin films or undamaged testing of a coating (medical and industrial fields).
7. Instrumentation, control, programing and data logger systems to support the development of the aforementioned analysis and diagnostic tools.

Members of Applied Physics KBK:

1. Gede Bayu Suparta (ID scopus: 7801438473, ID googlecholar: VojcJKsAAAAJ, SINTA ID: 5985600) (Coordinator)
2. Dr. Agung Bambang Setio Utomo
3. Dr. Karyono
4. M.Ali Joko Wasono
5. Mitrayana (ID Scopus: 56033380400, ID Scholar: BBj_2TwAAAAJ)
6. Waskito Nugroho
7. Ikhsan Setiawan, M.Si.
8. Wagini, M.S.
9. Sunarto, M.S.
10. Bambang Murdoko Eka Jati, M.S.

 

Researches at Functional Material Physics KBK (Coordinator: Dr. Kuwat Triyana):

1. Development of novel-functional materials including metamaterial based on functional computational covering:
2. Development of novel material that can produce a long spin lifetime through computational design and calculation based on density-functional theory (DFT). What has been developed is a two-dimensional material system (2D) such as the transition metal dichalcogenide groups (TMDs), while what is being developed is a 2D ferroelectric materials system which an aim to utilize the ferroelectricity properties for controlled spintronics systems, especially through the utilization of external electric fields.
3. The development of novel materials by implementing spintronic systems that have been developed in spintronics devices such as spin-field effect transistors and spin filters will be the priority of further research.
4. Development of metamaterials through computational design and calculation. Potential applications of metamaterials are numerous such as optical filters, sensors and antennas.

 

2. The theoretical and experimental surface physics and nanostructures of materials as well as functional based computation, which include:
3. Studying the development of nanoparticles and thin films which were then applied as active sensors based on surface plasmon resonance (SPR) phenomena. Experimental and computational studies that are currently and will be carried out include nanoparticle synthesis and its characteristics, optical properties of nanoparticles / nanocomposites and thin films, detection of biomaterials with SPR-based sensors and the effect nanoparticles / nanocomposites usage on their sensitivity, and the study of magneto-optical phenomena SPR (MO -SPR).
4. The theoretical study covers the quantum model of the SPR phenomenon and the effect of nanoparticles and nanocomposites sizes on their optical properties. Among the studies on the development of SPR-based sensors, we developed this technique to be applied in several fields, namely medicine (detection of enzymes and DNA), food (detection of hazardous and unclean substances in food), agriculture (detection of plants DNA and monitoring of algal growth) and environmental science (ammonia gas detection).
5. Study of Dynamics of Liquid Crystals Aligned using Nano and Microfiber Nematic liquid crystal (NLC) is a stable phase of matter and physically is a liquid that possesses anisotropic properties due to its molecules (shaped like rod). The director of nematic liquid crystals can easily be aligned by alignment layers. Here, we used electrospinning nano and micro fibers to provide strong anchoring of the NLC director. We research on the physical properties of the convective system and observe the non-linear phenomena such as electroconvection patterns. We also study thermal and optical properties of microfiber liquid crystal polymers.
6. Study of Indonesian Natural Bioceramic Materials based Scaffolds for Bone Tissue Engineering.

Bone is a natural composite consisting of tissues that are capable of regeneration. Damage to bone tissue can be resolved by implantation of prosthetic implant materials such as bioceramics. Bioceramic materials such as hydroxyapatite (HAp) or carbonated hydroxyapatite (CHAp) can be synthesized from biogenic materials containing large amounts of calcium carbonate by combining the sources of calcium and phosphate. We fabricate and research bioceramic scaffolds containing biogenic materials found in Indonesia for bone tissue engineering.

5. Development of 2-D materials, nanoparticles, nanowire and nanofibers based on their functionalities which include:
6. Synthesis of 2-D graphene and functional materials, Ag nanoparticles for anti-bacterial applications, TiO2 nanoparticles for photocatalytic, carbon-dot (C-dot) for solar cells, supercapacitors and batteries.
7. Synthesis of nanowire Ag and Cu which functions as transparent electrodes for solar cells and other optoelectronic devices such as touch screens and sensor systems.
8. Nanofiber synthesis uses several methods such as interfacial and electrospinning. Functionally, nanofiber can be used for the development of air and liquid filters (including hemodialysis filters), photocatalysts, wound dressing, antibacterial materials, drug delivery and solar cells.
9. For sensor development, the types of sensors developed include various sensors that ranges from gas sensors to biosensors, based on resistive and quartz crystal microbalance (QCM). The method of making sensor thin layers is done through several methods including self-assembled monolayer (SAM). To improve sensor selectivity, in addition to choosing the type of material used, molecularly imprinted polymer (MIP) method is also used.

 

6. The development of the sensor system and its functions that include:
   1. Development of analytical instruments based on gas sensor arrays as electronic nose (e-nose) which includes sensor composition and artificial intelligence to be applied in field of agriculture (Ganoderma detection, authentication and quality testing of agriculture products), the field of medicine and food (herbal standardization, halal detection and narcotics), medical field (detection of tuberculosis, infections, respiratory problems, and
   2. Development of analytic instruments based on potentiometric selective membrane ion array of sensors as electronic tongue (e-tongue) which includes sensor composition and artificial intelligence for water quality testing including zam-zam water, the field of medicine and food (herbal standardization, halal detection and narcotics), medical field (diagnostic using patient’s urine samples, diagnostic of infection type using MxA protein detection techniques, detection of SMN proteins as biomarkers of the paralysis case caused by Spinal Muscular Atrophy).
7. Development of biodegradable materials from polymeric materials which include:
8. Production of thin films by drop casting method to determine the mechanical and optical properties
9. Developing natural ingredients and extracting cellulose from wastes for food packaging

Research Collaboration:

1. Development of gas and optical sensors: Dr. Hutomo Suryo Wasisto M. Eng. (Laboratory for Emerging Nanometrology (LENA), Institute of Semiconductor Technology (IHT), Technische Universität Braunschweig, Braunschweig, Germany)
2. Development of potentiometric sensors based on ion selective membranes: Prof. Antonio Manuel Coelho Lino Preses (CIMO-Instituto Politecnico de Braganca, Portugal)
3. Development of sensors with molecular printed polymer (MIP) technique: Prof. Kenshi Hayashi, Department of Electronics, Graduate School of Information Science and Electrical Engineering, Kyushu University, Japan
4. Development and application of sensors and sensor systems: Mabes Polri Jakarta, Polda DIY, Rumah Sakit Dr. Sardjito, Pusat Riset Bioteknologi and Bioindustri Indonesia
5. Research on spintronic: Professor Fumiyuki Ishii (Nanomaterial Research Institute (NANOMARI), Kanazawa Univ Japan), and Dr. Hiroki Kotaka (Kyoto Univ. Japan)
6. Development of cellulose-based surgical threads from palm oil empty bunches: IPB, ITB, UNAIR

 

Research Facilities at the Department of Physics:

Research Facilities at the Department of Physics includes:

1. Measurement system for resistive and QCM based sensors.
2. Nanoparticle synthesis equipment.
3. Nanowire synthesis equipment.
4. Nanofiber fabrication (electrospinning).
5. Electronic development system
6. Electronic nose
7. Electronic tongue
8. 3D printer machine
9. Biomaterial synthesis
10. Thin film fabrication (spin coater, mini CVD, dip coater).
11. Furnace (up to 1100^o C)
12. Polarizer microscope
13. Spectrophotometer UV/Vis
14. Attenuated Total Reflection (ATR) measurement system (SPR homemade set up)

 

Laboratories Facilities within UGM: SEM, TEM, XRD, surface area analyzer, DSC, TGA, FTIR, Gas Chromatography, NMR

 

Laboratories Facilities outside of UGM:

• Access to ITO supercomputer machine facilities at Kyushu University Japan in collaboration with the Nanomaterial Research Institute (NANOMARI), Kanazawa Univ Japan.
• Access to high-performance computing system (HPC) and characterization equipment for materials, supercapacitors, and batteries at the Indonesian Institute of Sciences (LIPI)

 

Members of Functional Materials Physics KBK:

1. Kuwat Triyana (Scopus ID: 8597558700; Google Scholar ID: VQlD8Q8AAAAJ)
2. Ahmad Kusumaatmaja (Scopus ID: 55696458300; Google Scholar ID : A4EGHvIAAAAJ)
3. Iman Santoso (Scopus ID: 12781075300)
4. Ari Dwi Nugraheni  (Scopus ID: 55585996000; Google Scholar ID: 83N0FM8AAAAJ)
5. Edi Suharyadi (Scopus ID: 9737294200; Google Scholar ID: Er28CDMAAAAJ)
6. Muhammad Arifin (Google Scholar ID: HzV4yx4AAAAJ)
7. Devy Pramudyah Wardani (Scopus ID: 56896081800; Google Scholar ID: n84lq3cAAAAJ)
8. Ibnu Jihad (Google Scholar ID: CnblH-wAAAAJ)
9. Harsojo (Google Scholar ID: CnblH-wAAAAJ)

 

Research in Geoscience KBK (Coordinator: Dr.rer.nat. Ade Anggraeni):

1. Field of Instrumentation:
   1. Design of geomagnetic data acquisition instrument (Fluxgate onshore magnetometer and another which is loaded with UAV-Unmanned Aerial Vehicle) Design of 3 channel seismic refraction acquisition instrument
   2. Design of a 24-channel seismic refraction data acquisition instrument
   3. Design of simple seismometer and real time network system
   4. Design of Airborne infrared mapping
   5. Design of geoelectric instruments
2. Field of Seismology and Tectonics:
   1. Tectonic and volcanic interactions on the island of Java (collaboration with French IRD)
   2. Volcano earthquake Simulation (SPECFEM3D)

Structure of Earth’s crust in Indonesia based on Receiver Function and SPAC Regional (collaboration with IRIS USA)

3. The Field of Applied Geophysics:
   1. Modeling of tectonic and volcanic structures using gravity, MT and magnetic data
   2. Lava dome monitoring using photogrammetric techniques (collaboration with GFZ Potsdam)
   3. The application of Legendre polynomials in equipotential calculation of the earth
   4. Utilization of cluster computation for seismic modeling, seismology, and fluid propagation in pores and fractures systems.
   5. Utilization of satellite gravitational data on geothermal exploration
   6. Development of ambient noise tomography methods on geothermal fields.
   7. Development of passive seismic methods in the field of hydrocarbon exploration
   8. Application of geophysical methods in the fields of archaeology, disaster mitigation, and environmental science.
   9. Volcanic eruption precursors (Permutation entropy, probability function)
   10. Early detection system for volcanic activity (RKI, 2019)

 

Research funding is supported by RISTEKDIKTI with various schemes, from Limited liability company itself, as well as collaborative research with domestic and foreign agencies as mentioned above. Some researches also involve doctoral students under the guidance of promoters and co-promoters.

 

Laboratory facilities that support research activities in the Geosciences KBK include:

1. Geophysical field equipment:
   1. Resistivity meter
   2. 24-canal Seismograph
   3. Gravimeter
   4. Proton magnetometer
   5. Stratagem AMT
2. Computers and shared workspaces
3. Reference Room

Members of Geoscience KBK:

1. Dr. Sismanto (scopus ID: 57199052755)
2. Wahyudi
3. Budi Eka Nurcahya
4. Wiwit Suryanto (scopus ID: 55872506000)
5. -Ing. Ari Setiawan, MSi
6. Sudarmaji
7. Eddy Hartantyo (scopus ID: 56461309100)
8. rer. nat. Mochamad Nukman (scopus ID: 55801362300)
9. rer. nat. Ade Anggraini (scopus ID: 23481268200)
10. rer. nat. Sintia Windhi Niasari (scopus ID: 57207845930)
11. rer. nat. Herlan Darmawan ( scopus ID: 56635187300)
12. Afif Rahman, MT
13. Marwan Irnaka, MSc
14. Adam Sukma Putra, MSi

 

FMIPA UGM S3-Physics Study Program is supported by four laboratories under the management of the Physics Department, namely the Atomic and Core Physics laboratory, Material and Instrumentation Physics Laboratory, Geophysics Laboratory, and Laboratories managed by UGM‘s Physics Department along with LPPT under the authority of the university.

 

CURRICULUM AND COURSES IN THE S3-PHYSICS STUDY PROGRAM

Students are obliged to take courses of at least 9 credits, which are determined based on the direction or topic of the dissertation research to be conducted. The subjects that must be taken are determined in the student selection meeting by asking for consideration of prospective promoters. The course is selected from the following list of subjects.

 

KBK	Code	Credits	Course Name
Applied Physics	MFF 7430	3	Acoustics
	MFF 7301	3	Laser spectroscopy
	MFF 7302	3	Spectroscopic Instrumentation
	MFF 7872	3	Tomography physics
	MFF 7871	3	Medical Physics
	MFF 7303	3	Atomic and Molecular Spectroscopy, 3 credits, Sem I
	MFF 7873	3	Physics Imaging Instrumentation – MFF / 3 credits
	MFF 7874	3	Nondestructive Test – MFF / 3 credits
Theoritical and Computational Physics	MFF 7024	3	Special Topic on Stochastic Process for Physicists
	MFF 7111	3	Special Topics on Particle and Field Physics
	MFF 7971	3	Special Topics on Astrophysics
	MFF 7042	3	Special Topic on Relativity Theory
	MFF 7023	3	Special Topic on Functional Analysis for Physics
	MFF 7025	3	Special Topics on Differential Topology and Geometry for Physicists
	MFF 7027	3	Stochastic Computational Physics
	MFF 7026	3	Computational Physics
Functional Material Physics	MFF 7600	3	Compressed Substance Physics
	MFF 7750	3	Electromagnetic Materials
	MFF 7810	3	Special Topics on Sensor Systems
	MFF 7811	3	Special Topics on Material Physics
	MFF 7813	3	Special Topics on Computational Materials Physics
	MFF 7070	3	Special Topic on Instrumentation Physics
	MFF 7814	3	Functional Materials
Geophysics	MFF 7930	3	Digital Signal Analysis
	MFF 7931	3	Deformation and Gravity
	MFF 7932	3	Special Topic on Geodynamics
	MFF 7933	3	Special Topic on Inversion Method
	MFF 7911	3	Advanced Quantitative Seismology
	MFF 7912	3	Special Topic on Seismology
	MFF 7913	3	Seismic Hazard Analysis
	MFF 7934	3	Special Topics on Rock Physics
	MFF 7914	3	Microseismic Analysis
	MFF 7915	3	Computational Seismology
	MFF 1935	3	Advanced Volcanic Physics
	MFF 7400	3	Special Topic on Electromagnetism
	MFF 7916	3	Special Geothermal Topics
	MFF 7917	3	Special Topic on Geoelectric Methods
	MFF 7918	3	Special Topic on Geology
	MFF 7001	3	Special Topic on Geography
	MFF 7936	3	Finite Element for Geophysics

 

The lecture and exams methodology for the subjects that must be taken by each student are casuistic in nature and the systematics depends on each lecturers. In each courses, the lecturers must perform interactions with students that is equivalent to 14 meetings for each semester. Lecturers of compulsary courses must hand in the result of courses taken by students and submit them to the Academic department of study program at the end of each semester.

 

The dissertation assessment components will include seminars, final project research, paper writing and dissertation exams, each of which is arranged in more detail through an assessment rubric.

 

The S3-Physics Program of the Department of Physics FMIPA UGM is designed to be completed within three years with a minimum credits of at least 46 credits.

 

Semester I Compulsary course: 3 credits (Research Methodology) Compulsary course: 3 credits (Review Artikel Jurnal) Elective course: 3 credits	Semester II Elective course: 9 credits Monitoring I: 2 credits
Semester III Comprehensive Exam: 4 credits Monitoring II: 2 credits	Semester IV Publication Monitoring: 3 credits Monitoring III: 2 credits
Semester V Publication (10 credits)	Semester VI Dissertation Manuscript: 6 credits Dissertation Examination: 6 credits

 

Monitoring is conducted in semester II, III, and IV. Monitoring is very critical for the students sinceeach monitoring will determine the continuation of the S3 program the student is undertaking.

 

For quality assurance, UGM Physics Study Program is audited annually by the UGM Quality Assurance Office through the Internal Quality Audit (AMI) and every 5 years is accredited by the National Accreditation Board for Higher Education (BAN-PT). Until March of 2021, UGM S3-Physics Study Program have always been awarded an Excellent grade or A-grade.

 

III ADMISSION REQUIREMENTS AND TUITION FEE

 Admission requirements for students and tuition fee follow the regulations of the faculty.

DOCTOR OF COMPUTER SCIENCE

 

BRIEF DESCRIPTION

Doctor of Computer Science Study Program is an academic-oriented education that was established in 2002. The Computer Science Doctoral Program has been known nationally and internationally, represented by students of multi-ethnicity coming from various islands in Indonesia (from Sabang to Merauke) as well as overseas.

 

EXCELLENCE AND UNIQUENESS

The Computer Science Doctoral Program offers 2 main profiles of graduates, namely:

• • Lecturer, and
• Has obtained the best consecutive national accreditation (BAN-PT).
• There are 30 Supporting Staff in the Computer Science Doctoral Program, all of whom have Doctorates from various branches of Computer Science, graduates from leading home and abroad universities.
• The Computer Science Doctoral Program in conducting its research is supported by five scientific laboratories, namely Computing, Intelligent Systems, Software and Data Engineering, Computer Systems and Networks, and Instrumentation Electronics.
• The Computer Science Doctoral Program also has various collaborative programs with domestic and foreign universities, government and private institutions which have been carried out in the form of education and research.
• The Computer Science Doctoral Program focuses on pure, fundamental and applied research, applying the latest principles and discoveries in the field of science (for example: mathematics, physics, biology) to solve computational problems.
• The Computer Science Doctoral Program is a program that produces products in the form of new models or theories in the field of computer science based on intelligent computing.
• The Computer Science Doctoral Program UGM is one of the study programs in the Faculty of Mathematics and Natural Sciences, which studies basic and applied sciences, as well as engineering studies, especially in software.
• In Universitas Gadjah Mada, the Computer Science Doctoral Program contains more in-depth theoretical studies in the field of computers compared to the Doctoral Program in Electrical and Informatics Engineering with an emphasis on the use of information technology.
• The Computer Science Doctoral Program UGM has a high level of dispersion from local students in Indonesia, as well as having the largest undergraduate and postgraduate origin compared to the similar programs in other higher education institutions in Indonesia.
• Judging from its uniqueness, the UGM Computer Science Doctoral Program specializes in intelligent computing, whereas the University of Indonesia Computer Science Doctoral Program strengthening in high-performance computing, the ITB Information Doctoral Program specializing in software engineering, the ITS Information Engineering Doctoral Program specializing in computer systems, and the Gunadarma University Doctoral Program specializing in image processing.

 

COMPETENCE

The learning outcomes of the program (PLO) study consist of four objectives, namely (1) Attitudes and Values, (2) Knowledge Mastery, (3) Work Ability, and (4) Managerial Ability.

 

CAREER PROSPECTS

Graduates of the Computer Science Masters Program can work among others as:

1. Lecturer/Educator in the field of Computer Science, at the highest level of Undergraduate
2. Computer Science researcher
3. Intelligent system designers and consultant
4. Data scientist
5. Manager of the system and information technology

 

CURRICULUM

The subjects of the Computer Science Doctoral Program are divided into three types as shown in Table 1, namely: compulsory courses that must be taken by all students, electives in the study program and electives outside the study program. Students are affirmed to pass the Computer Science Doctoral Program if they have taken a minimum of 46 credits consisting of: 34 credits of Dissertation, 6 credits of compulsory courses, and 6 credits minimum of elective courses in accordance with the decision of the new student admissions team. The compulsory subjects, shown in Table 2, are taken by all PhD students in Computer Science.

 

Table 1. Group of subjects in Computer Science Doctoral programs

No	Subjects Group	Credits
1	Dissertation	34
2	Compulsory	6
3	Elective	Minimum 6

 

Table 2. Compulsory Courses

No.	Code	Course Name	Credits
1.	MII7000	Research Methodology	3
2.	MII7020	Research Trend in Computer Science	3
3	MII7099	Dissertation	34

 

The elective courses, as shown in Table 3, are taken by students according to the decision of the student admissions team. The decision of elective courses that are to be taken is made by the promoter appointed for the prospective student along with the student admissions team’s advisory. If deemed necessary, prospective students will be asked to take a course from outside the study program in accordance with the candidate student’s research domain.

 

Table 3.8. Elective courses in Computer Science Doctoral Program

No.	Code	Course Name	Research Lab.	Credits
1	MII7050	Capita Selecta		3
2	MII7225	Formal Method	AK	3
3	MII7235	Advance Statistics	AK	3
4	MII7245	Digital Image Processing	AK	3
5	MII7255	Advanced Computing	AK	3
6	MII7265	Cryptology	AK	3
7	MII7270	Numerical Analysis	AK	3
8	MII7271	Parallel Computation	AK	3
9	MII7425	Artificial Intelligence	SC	3
10	MII7435	Uncertainty	SC	3
11	MII7445	Advanced Decision Support System	SC	3
12	MII7455	Computational Intelligence	SC	3
13	MII7465	Natural Language Processing	SC	3
14	MII7520	Data Mining	RPLD	3
15	MII7530	Mobile and Cloud Computing	RPLD	3
16	MII7540	Database Systems	RPLD	3
17	MII7550	Information and Knowledge Management	RPLD	3
18	MII7560	Software Engineering	RPLD	3
19	MII7570	Information Retrieval	RPLD	3
20	MII7625	Advanced Computer Network	SKJ	3
21	MII7635	Advanced Network Security	SKJ	3
22	MII7645	Embedded System	SKJ	3
23	MII7655	Distributed System	SKJ	3
24	MII7665	Web Technology	SKJ	3
25	MII7825	Sensor Network	Elins	3
26	MII7835	Feedback Control of Computing System	Elins	3
27	MII7845	Pattern Recognition	Elins	3
28	MII7855	Real Time System	Elins	3
29	MII7865	Computer Vision	Elins	3

 

AK     = Algorithm and Computation Research Laboratory (Algoritma dan Komputasi)

SC    = Intelligent System Research Laboratory (Sistem Cerdas)

RPLD = Software and Data Engineering Research Laboratory (Rekayasa Perangkat Lunak & Data)

SKJ   = Computer Systems and Networks Research Laboratory (Sistem Komputer dan Jaringan)

Elins    = Electronics and Instrumentation Laboratory (Elektronika dan Instrumentasi)

 

TUITION FEE PER SEMESTER

Education costs of the Computer Science Doctoral Program:

 

No	Higher Education Level	Admission Type	Tuition Fees per Semester
1	Doctorate	Regular	IDR  17,000,000
2	Doctorate	Partnership	IDR  31,000,000
3	Doctorate	International	IDR  43,000,000

 

ADMISSION REQUIREMENTS

Doctorate Program Registration Information

https://mkom.ugm.ac.id/informasi-pendaftaran-program-s3-doktor/

 

Registration Flow

https://um.ugm.ac.id/v.2015/id_home.php?l=aWRfcGFnZSMxOTA0MTAzMDQyI1Byb3NlZHVyIFBlbmRhZnRhcmFuIERva3RvciM0I1Byb2dyYW0gUGFzY2FzYXJqYW5h

 

IMPORTANT DATES

Intake 1:

• Registration: May – June
• Examination: June
• Announcement: June

Intake 2:

• Registration: June – July
• Examination: July
• Announcement: July

 

CONTACT AND INQUIRIES

Edi Winarko, M.Sc., Ph.D.

Email : ewinarko@ugm.ac.id

 

Dr. Agfianto Eko Putra, M.Si.

Email : agfi@ugm.ac.id

 

Address:

SIC Building, 3^rd Floor

Faculty of Mathematics and Natural Sciences

Universitas Gadjah Mada

Sekip Utara, Bulaksumur, Yogyakarta 55281

Phone (0274) 555133

Email : mkom@ugm.ac.id

 

Website:

https://mkom.ugm.ac.id/informasi-pendaftaran-program-s3-doktor/

CHEMISTRY DOCTORAL STUDY PROGRAM

 

BRIEF DESCRIPTION

The Doctoral Study Program in Chemistry at the Faculty of Mathematics and Natural Sciences UGM was established in 1981 under the Department of Postgraduates in Mathematics and Natural Sciences, Faculty of Postgraduate Studies. The study program was then confirmed by the Decree from the Higher Education Director General of the Ministry of Education and Culture, Republic of Indonesia, No. 580 / DIKTI / Kep / 1993, September 29, 1993. Since the academic year 2007/2008, according to the UGM Chancellor’s Decree on Monodisciplinary Postgraduate Program Number 89 / P / SK / HT / 2006, the Postgraduate Chemistry Study Program is under the Faculty of Mathematics and Science Nature (FMIPA). Graduates of the Doctoral Study Program in Chemistry are entitled to hold a doctorate (Dr.) degree. The current teaching-learning process, research and service in the Chemistry Study Program of FMIPA UGM is taken responsible by 41 permanent teaching staff, of which 14 are professors. and 6 non-permanent teaching staff, of which 4 are professors.

 

EXCELLENCE AND UNIQUENESS

• The Doctoral Study Program in Chemistry offers 3 main profiles of graduates, namely:
  • Academic (Lecturer)
  • Researcher
  • Environmental Consultant
• Has obtained the best accreditation (accreditation A) consecutively from the National Accreditation Board for Higher Education (BAN-PT).
• Has 41 permanent teaching staff with doctoral degrees, 14 of which are professors.
• Has six laboratories, namely Analytical Chemistry Laboratory, Inorganic Chemistry, Physical Chemistry, Computational Chemistry, Organic Chemistry, and Postgraduate Chemistry Laboratory.
• Supported by various laboratories in UGM that are equipped with advanced equipment.
• Focusing not only on basic researches but also inter and multidisciplinary applied research.
• Has established many partnerships and is constantly improving the collaboration program in the fields of education, research and service with domestic and foreign universities, regional governments, state and private institutions.
• Actively involved in solving global problems related to chemistry through international networks, such as:

ü  Promoting collaboration in the field of water management in developing countries through the international network of the Excellence Center for Sustainable Water Management,

ü  Monitoring persistent organic pollutants (POPs) in Indonesia and other countries in Asia for updating data in the Stockholm Convention on POPs,

ü  Promoting and updating environmentally friendly and sustainable laboratories that is uploaded to https://www.oc-praktikum.de/nop for the initiative and funding from UNESCO,

ü  Constantly being a reference for similar study programs in other universities in Indonesia,

ü  Having a very wide distribution of student origins which covers almost all regions in Indonesia as well as several international students.

 

COMPETENCE

Graduates of the Chemistry Doctoral Study Program are directed to become academics, researchers and environmental consultants who are reliable in their field of expertise and have mastery of in-depth knowledge with broad insight, and are able to independently conduct research/study and disseminate the research/study results. In achieving the graduate profile, the program learning outcomes (PLO) are determined to consist four elements, namely (1) Attitudes and Values, (2) Knowledge Mastery, (3) Work Ability, and (4) Managerial Ability. The learning outcomes of the study program have been synchronized with level 9 of the KKNI listed in PP RI No. 8 of 2012.

 

CAREER PROSPECTS

Graduates of the Chemistry Doctoral Program can work, among others, as:

1. Lecturers/Educators in the field of Chemistry, at the level of Bachelor (S1) until Postgraduate (S3) study programs in Higher Education
2. Researchers in the field of Chemistry
3. Research and development practitioners in the chemical industry and other related industries
4. Environmental Consultants

 

CURRICULUM

In order to equip graduates with the main competencies in terms of knowledge, understanding and skills in the field of chemistry at the doctoral level, the curriculum of the Doctoral Study Program in Chemistry is structured in such a way that it consists of courses that are obligatory to students.

 

The courses in the Chemistry Doctoral Study Program is divided into two types, namely: compulsory courses that must be taken by all students and elective courses. Elective courses are grouped into four in accordance with existing specialization, namely Interest in Inorganic Chemistry, Analytical Chemistry, Physical Chemistry, Environmental Chemistry, and Organic Chemistry with an additional Educational course. Students are declared to have passed the Chemistry Doctoral Study Program if they have taken a minimum of 46 credits consisting of: 34 credits of dissertation, 8 credits of compulsory courses, and minimum of 4 credits of elective courses. The list of compulsory and dissertation courses is shown in Table 1, while a list of elective courses is shown in Table 2.

 

Table 1. List of program-compulsory courses and dissertation

 

No.	Course Name	Credits
1	Philosophy of Science	2
2	Journal Review	2
3	Research Design	2
4	Progress Seminar	1
5	Evaluation Seminar	1
6	Dissertation	34

 

Teble 2. List of elective courses

Course Name	Credits	Course Name	Credits
Inorganic Chemistry Specialization		Analytic Chemistry Specialization
Material Synthesis and Characterization	2	Advanced Analytical Spectrometry	2
Metal Ions in water	2	Advanced Analytic Separation	2
Nanotechnology in Environmental Chemistry	2	Advanced Chemometry	2
Physical Chemistry Specialization		Environmental Chemistry
Kinetics and Catalysts	2	Chemodynamics and Environmental Modeling	2
Thermodynamics and Chemical Balance	2	Aspects of Green Chemistry in Chemical Research	2
Quantum and Computational Chemistry	2	Environmental Toxicology	2
Organic Chemistry Specialization		Educational
Organic Molecular Design and Engineering	2	Psychology of Cognitive Development	2
Advanced Bio Chemistry	2
Isolation and Elucidation of Structure of Organic Compounds	2

 

TUITION FEES PER SEMESTER

Education Costs of the Chemistry Doctoral Program:

 

No	Admission Type	Tuition Fees per Semester
1	Regular	IDR 13,000,000
2	Partnership	IDR 23,000,000
3	International	IDR 43,000,000

 

ADMISSION REQUIREMENTS

Registration information

Pendaftaran Mahasiswa Baru Program S2 dan S3 Kimia

 

Registration Flow

https://um.ugm.ac.id/v.2015/id_home.php?l=aWRfcGFnZSMxOTA0MTAzMDQyI1Byb3NlZHVyIFBlbmRhZnRhcmFuIERva3RvciM0I1Byb2dyYW0gUGFzY2FzYXJqYW5h

 

Applicant Requirements

https://um.ugm.ac.id/v.2015/id_home.php?l=aWRfcGFnZSMxOTA0MTAyMDYjUGVyc3lhcmF0YW4gUHJvZ3JhbSBEb2t0b3IjNCNQcm9ncmFtIFBhc2Nhc2FyamFuYQ==

 

IMPORTANT DATES

Intake 1:

• Registration : May – June
• Examination : June
• Announcement : June

 

Intake 2:

• Registration : June – July
• Examination : July
• Announcement : July

 

INQUIRIES

Prof. Dr. Sri Juari Santosa, M.Eng.

Email : sjuari@ugm.ac.id

 

Dr. Dwi Siswanta, M.Eng.

Email : dsiswanta@ugm.ac.id

 

Address:

Magister/Doctorate (S2/S3) Building

Faculty of Mathematics and Natural Sciences

Universitas Gadjah Mada

Sekip Utara, Kotak Pos Bls. 21, Yogyakarta 55281

Telp (0274) 545188

Email : pascasarjana_kimia@ugm.ac.id

 

Website:

Beranda

MASTER OF COMPUTER SCIENCE

 

BRIEF DESCRIPTION

Master of Computer Science Study Program (Master of Computer Science Program) is an academic-oriented education that was established in 1999. Graduates of the Computer Science Masters program acquired the M.Cs (Master of Computer Science) degree. The Master of Computer Science has been known nationally and internationally, represented by students of multi-ethnicity coming from various islands in Indonesia (from Sabang to Merauke) as well as overseas. As of December 2018, the Computer Science Masters Program has produced more than 1,000 graduates.

 

EXCELLENCE AND UNIQUENESS

• The Computer Science Masters program offers 3 main profiles of graduates, namely:
  • Intelligent System Designer
  • Data scientist, and
  • Lecturer or Researcher.
• The Computer Science Masters Program has become a reference for similar study programs in other tertiary institutions.
• Has obtained the best consecutive national accreditation (BAN-PT) and international accreditation (ASIIN).
• There are 30 Supporting Staff in the Computer Science Masters Program, all of whom have Doctorates from various branches of Computer Science, graduates from leading home and abroad universities.
• The Master of Computer Science program in conducting its research is supported by five scientific laboratories, namely Computing, Intelligent Systems, Software and Data Engineering, Computer and Network Systems, and Instrumentation Electronics.
• The Master of Computer Science Program also has various collaborative programs with domestic and foreign universities, government and private institutions which have been carried out in the form of education and research.
• Starting from the academic year 2018/2019 the Department of Computer and Electronics Science (DIKE) offers UGM Masters of Computer Science students to be able to participate in the Double Degree program at various overseas universities, including:
  • Graduate School of Natural Science and Technology, Kanazawa University, Japan.
  • Department of Computer Science and Information Engineering, National Central University (NCU), Taiwan.
  • Department of Information Management, National Taiwan University of Science and Technology (NTUST), Taiwan.
  • School of Computer Science, University of Birmingham (UoB), United Kingdom.
• In 2019, the Master of Computer Science Program UGM offers a scholarship program for Masters students in the class of 2019. The scholarships are in the form of tuition fee exemption for a maximum of 4 semesters.
• The Computer Science Masters Program offers Pre-Masters classes to assist applicants in reviewing the main material at the undergraduate level that are essential for continuing their studies at the master’s level, providing preliminary knowledge about the Computer Science master’s program as well as preparing themselves for the selection examination.

 

COMPETENCE

The learning outcomes of the program (PLO) study consist of four objectives, namely (1) Attitudes and Values, (2) Knowledge Mastery, (3) Work Ability, and (4) Managerial Ability.

 

CAREER PROSPECTS

Graduates of the Computer Science Masters Program can work, among others, as:

1. Lecturer/Educator in the field of Computer Science, at the highest level of Undergraduate
2. Computer Science researcher
3. Intelligent system designers and consultants
4. Data scientist
5. Manager of the system and information technology

 

CURRICULUM

• The Computer Science Masters Program 2017 curriculum imposes 44 credits of courses consisting of 23 credits of compulsory subjects and 21 credits of elective courses.
• The credits can be taken in three semesters.
• Curriculum structure is shown in the following table:

 

Table 1: Curriculum Structure

No.	Course Name	Credits	Semester
1.	Artificial Intelligence	3	1
2.	Artificial Intelligence	3
3.	Research Methodologies	3
4.	Software Development	3
5.	Database Management System	3
Subtotal		15
1.	Thesis Proposal	2	2
2.	Elective course 1	3
3.	Elective course 2	3
4.	Elective course 3	3
5.	Elective course 4	3
6.	Elective course 5	3
Subtotal		17
1.	Thesis	6	3
2.	Elective course 6	3
3.	Elective course 7	3
Subtotal		12

 

• The following table provides a list of elective courses.

 

Table 2: List of Elective Courses

No	Course Name	Credit	Semester
1	Applied Algebra and Statistics	3	Even
2	Big Data Analysis	3	Even
3	Data Science	3	Even
4	Electronics	3	Even
5	Instrumentation	3	Even
6	Software Quality Assurance	3	Even
7	Computer Networks	3	Even
8	Computer Security	3	Even
9	Computational Intelligence and Machine Learning	3	Even
10	Parallel Computation	3	Even
11	Cryptology	3	Even
12	Fuzzy Logics	3	Even
13	Mathematics for Data Science	3	Even
14	Automation, Language and Application	3	Even
15	Digital Signal Processing	3	Even
16	Expert Systems	3	Even
17	Decision Support System	3	Even
18	Embedded System	3	Even
19	Computer Reasoning	3	Odd
20	Semantic Search and Information Retrieval	3	Odd
21	Pattern Recognition	3	Odd
22	Digital Image Processing	3	Odd
23	Operations Research	3	Odd
24	Robotics	3	Odd
25	Computational Science	3	Odd
26	Control System	3	Odd
27	Wireless and Mobile Communication Systems	3	Odd
28	Distributed and Cloud Systems	3	Odd
29	Life-Inspired Systems	3	Odd
30	Social Informatics	3	Odd
31	Business Problem and Data Science Solution	3	Odd
32	Verification and Validation	3	Odd

 

 

TUITION FEES PER SEMESTER

Education costs of the Master of Computer Science Program:

 

No	Higher Education Level	Class	Admission Type	Tuition Fee Level	Tuition Fees per Semester
1	Master	Regular	Regular	13	IDR 11,000,000
2	Master	Regular	International	7	IDR 35,750,000
3	Master	Specific	Regular/International	16	IDR 12,500,000

 

ADMISSION REQUIREMENTS

 

Applicant Requirements

https://um.ugm.ac.id/v.2015/id_home.php?l=aWRfcGFnZSMxOTA0MTAyMDUjUGVyc3lhcmF0YW4gUHJvZ3JhbSBNYWdpc3RlciM0I1Byb2dyYW0gUGFzY2FzYXJqYW5h

 

Registration Flow

https://um.ugm.ac.id/v.2015/id_home.php?l=aWRfcGFnZSMxOTA0MTAzMDQxI1Byb3NlZHVyIFBlbmRhZnRhcmFuIE1hZ2lzdGVyIzQjUHJvZ3JhbSBQYXNjYXNhcmphbmE=

 

IMPORTANT DATES

Intake 1 (Pre-Masters Program):

• Registration: January – February
• Lectures: February – May
• Exams: May
• Announcement: May

 

Intake 2 (Without Pre-Masters Program):

• Registration: May – June
• Test: June
• Announcement: June

 

INQUIRIES

Dr. Tri Kuntoro Priyambodo, M.Sc.

Email: mastri@ugm.ac.id

 

Aina Musdholifah, S.Kom., M.Kom., Ph.D.

Email: aina_m@ugm.ac.id

 

Address:

Magister/Doctorate (S2/S3) Building, 4^th Floor

Faculty of Mathematics and Natural Sciences

Universitas Gadjah Mada

Sekip Utara, Bulaksumur, Yogyakarta 55281

Phone (0274) 555133

Email: mkom@ugm.ac.id

 

Website:

http://dcse.fmipa.ugm.ac.id/site/id/s2-ilmu-komputer/

http://mkom.ugm.ac.id/

MASTER IN PHYSICS

 

The Masters in Physics Study Program at Universitas Gadjah Mada University was officially established in 1993. Since its establishment until now the UGM Physics Master Program has always received A accreditation from the Indonesia National Accreditation Board of Higher Education. This program is one of the first several Physics Masters programs in Indonesia. The UGM Physics Master Program offers Masters level education in the field of Physics with many options of specialties. Studying the smallest and most basic things such as the study of Particle Physics, to macro objects such as Earth Physics, to very large ones such as Cosmology. Currently the UGM Physics Master Program has 37 qualified lecturers who were Doctorate graduates from well-known universities, with expertise in various fields of Physics, grouped in four groups of expertise:

Theoretical and Computational Physics, Functional Material Physics, Applied Physics, and Geoscience.

Graduates of the UGM Physics Master program will obtain a Master of Science (M.Sc.) degree in Physics. In the last five years the average number of graduates is above 50 students per year and the number of active students per year is around 100 students. Until 2018 UGM Physics Master Program has produced more than 1000 graduates. Most of the graduates have career in academics as lecturers in state and private universities, or become teachers at secondary education, while others become researchers in various government-owned research institutions or become experts in government institution or national private companies. Some of them become entrepreneurs based on science-technology.

In order to improve the quality of education, the UGM Physics Master Program offers students the opportunity to take part in the Double Degree program. The Dual Degree program currently underway is with the Department of Medicine and Computational Science, Kanazawa University. This year the Dual Degree program will also begin with the Department of Physics, National Central University, Taiwan, and with the Department of Applied Physics at Tunghai University, Taiwan. In addition to the Dual Degree program, students also get various opportunities to conduct Student Exchange programs or Short Course programs in several Foreign Universities, including in Japan, Taiwan, and France.

The UGM Physics Master Program can be completed normally in four semesters (two years) by completing 40 credits including 8 thesis credits and 11 credits in compulsory subjects. But for students who have more capabilities, the 40 credits can also be completed within two semesters. The following is a list of subjects in the UGM Physics Master program.

 

Code	Subject	Category	Credit	Semester
MFF 5001	Research Methodology	Compulsory	2	Even/Odd
MFF 5033	Quantum Mechanics	Compulsory	3	Even/Odd
MFF 5401	Classical Mechanics	Compulsory	3	Even/Odd
MFF 5411	Electrodynamics	Compulsory	3	Even/Odd
MFF 6001	Thesis	Compulsory	8	Even/Odd
MFF5002	Special Topics in Theoretical and Mathematical Physics	elective	3	even/odd
MFF5010	Logic and Symbolic Computation in Physics	elective	2	even/odd
MFF5032	Computation of Celestial Body Mechanics	elective	2	even/odd
MFF5039	Special Topic in Computational Physics	elective	3	even/odd
MFF5514	Condensed Matter Electronics Structure Computation	elective	3	even/odd
MFF5005	Group Theory for Physicist	elective	2	odd
MFF5007	Topology and Geometry for Physicist	elective	2	odd
MFF5009	Mathematical Physics	elective	3	odd
MFF5027	Computational Physics	elective	3	odd
MFF5041	General Theory of Relativity	elective	3	odd
MFF5051	Statistical Mechanics	elective	3	odd
MFF5115	Quantum Field Theory	elective	3	odd
MFF5211	Nuclear Physics	elective	3	odd
MFF5893	Nonlinear and Complex System Physics	elective	3	odd
MFF5951	Astrophysics	elective	3	odd
MFF5004	Stochastic process for Physicist	elective	2	even
MFF5022	Functional Analysis for Physicist	elective	2	even
MFF5034	Advanced Quantum Mechanics	elective	3	even
MFF5056	Fractal and Chaos in Physics	elective	2	even
MFF5114	Particle Physics	elective	3	even
MFF5404	Fluid Mechanics	elective	3	even
MFF5982	Cosmology	elective	3	even
MFF5061	Methods of Experimental Physics	elective	3	odd
MFF5281	Radiation Physics	elective	3	odd
MFF5321	Atomic and Molecular Spectroscopy	elective	3	odd
MFF5423	Laser Spectroscopy	elective	2	odd
MFF5431	Theoretical Acoustics	elective	2	odd
MFF5841	Microwave Theory and Applications	elective	2	odd
MFF5873	Digital Image	elective	3	odd
MFF5424	Biomedical Optics	elective	2	even
MFF5426	Laser Physics	elective	2	even
MFF5434	Photoacoustic and Photothermal	elective	2	even
MFF5876	Imaging Methods in Physics	elective	3	even
MFF5878	Image Reconstruction	elective	3	even
MFF5071	Physics of Instrumentation	elective	3	odd
MFF5073	Data Acquisition System	elective	3	odd
MFF5601	Soft Condensed Matter Physics	elective	3	odd
MFF5611	Crystal Physics	elective	3	odd
MFF5617	Nanophysics	elective	2	odd
MFF5701	Condensed Matter Physics	elective	3	odd
MFF5711	Methods of Material Physics Computation	elective	3	odd
MFF5853	Spintronics Material	elective	3	odd
MFF5412	Applied Electromagnetic	elective	3	even
MFF5710	Physics of Electronics Material	elective	3	even
MFF5750	Condensed Matter Magnetics	elective	3	even
MFF5780	Condensed Matter Optics	elective	3	even
MFF5814	Material Characterization Methods	elective	3	even
MFF5870	Biomaterial Physics	elective	2	even
MFF5073	System of Data Acquisition	elective	3	odd
MFF5831	Advanced Mechanics of Continuous Medium	elective	3	odd
MFF5881	Advanced Geothermal Exploration	elective	2	odd
MFF5891	Hazard Mitigation	elective	2	odd
MFF5911	Physics of Earth/ Earth Physics	elective	3	odd
MFF5931	Electromagnetics Survey	elective	3	odd
MFF5923	Method of Data Analysis and Visualization	elective	3	odd
MFF5933	Geophysical Inversion	elective	2	odd
MFF5935	Quantitative Seismology	elective	3	odd
MFF5937	Petroleum Exploration	elective	2	odd
MFF5939	Geoscience Field course	elective	2	odd
MFF5910	Geological Physics	elective	2	even
MFF5916	Advanced Rock Physics	elective	2	even
MFF5918	Volcanology	elective	2	even
MFF5924	Advanced Environmental Geophysics	elective	2	even
MFF5930	Advanced Seismology	elective	3	even
MFF5932	Potential Field Theory	elective	3	even
MFF5934	Non-electromagnetics Survey	elective	2	even
MFF5936	Mineral Exploration	elective	2	even

 

Acceptance of new students in the UGM Physics Master program is conducted in both semesters, odd semester (August – January) and even semester (February – July). The UGM Physics Master Program can accept students with previous educational backgrounds from Bachelor of Physics and Physics Education.  The program also accept prospective students with a Bachelor’s educational background from fields close to physics such as from Geophysics, Astronomy, Engineering Physics, Instrumentation Electronics and other branches of engineering or science. Student admission requirements and complete information on registration procedures and tuition fees can be found on the UGM webpage http://um.ugm.ac.id.

Questions and Contacts
Dr. Arief Hermanto
Email: arief_hermanto@ugm.ac.id
Mirza Satriawan, Ph.D.
Email: mirza@ugm.ac.id

Address:
Department of Physics
Faculty of Math and Science
Sekip Utara Bulaksumur Yogyakarta 55281
Tel / Fax: (0274) 545 185

Departemen Fisika – Fakultas Matematika dan Ilmu Pengetahuan Alam UGM

Email: dep-fisika.mipa@ugm.ac.id