Who Am I? (簡介)
Who Am I? (簡介)
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Hello, my name is Deriyan Senjaya (朱天賜), though most people simply call me Deriyan. I was born as a Chinese-Indonesian, at the vibrant city of Surabaya, Indonesia, on December 19, 1993. My academic expertise lies in theoretical physics, with a particular focus on Quantum Theory. At present, I am pursuing my Ph.D. in theoretical physics at National Tsing Hua University (NTHU), Taiwan.
I am deeply driven by an insatiable curiosity and a passion for research. To me, research is not merely an intellectual pursuit—it is a profound endeavor to shape a brighter future, not only for myself but for humanity as a whole. I am equally enthusiastic about collaboration, especially with fellow scientists working within my field or across interdisciplinary domains.
If you share similar interests or are inspired to collaborate, please do not hesitate to reach out—I would be delighted to connect.
Education (教育歴)
Ph.D. Candidate, Theoretical Physics, (2021-Present), National Tsing Hua University, Taiwan
博士候, 理論物理, (2021年至今), 國立清華大學, 台灣
M.S., Theoretical Physics,(2017-2019), Institut Teknologi Bandung, West Java, Indonesia
碩士, 理論物理, (2017-2019), Institut Teknologi Bandung, 印度尼西亞
B.S., Theoretical Physics, (2011-2015), Universitas Airlangga, East Java, Indonesia
學士, 理論物理, (2011-2015), Universitas Airlangga, 印度尼西亞
Research Interests (研究興趣)
Quantum Theory and Applications (量子理論及其應用)
I am interested in quantum mechanics (QM) and quantum field theory (QFT) as fundamental physical theories and their applications in condensed matter physics, quantum optics, nanotechnology, quantum computing and quantum information, atomic & molecular physics, and so on.
Theoretical Physics Methods for Robotics Science (機器人科學中的理論物理方法)
I am interested in applying theoretical physics methods to study robot dynamics, both mobile and manipulator. These methods include Lagrangian and Hamiltonian mechanics, group theory, nonlinear dynamics, and more.
Theoretical and Computational Astrophysics (理論與計算天文物理學)
I am interested in using code to perform N-body simulations of astrophysical objects, particularly galaxies. These simulations are employed to study galactic evolution and mergers, as well as their implications for addressing the Fermi paradox—namely, why we have yet to observe advanced civilizations beyond our own.
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