• Department of Physics
  • ketua_fizik@um.edu.my
  • 03-7967 4206
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Physics Colloquium

Feb 21, 2023
02.30 PM - 04.00 PM
DKF Block B, Department of Physics and Online Platform (Zoom)

Dear all,

The Department of Physics cordially invites you to the Physics Double Seminar by CTCP Visiting Scientists from the Department of Physics, Faculty of Science and Data Analytics, Institut Teknologi Sepuluh Nopember, Surabaya, Indonesia:

Date: Tuesday February 21st, 2:30 - 4:00 pm         

Venue: DKF Block B, Department of Physics

Linkhttps://us02web.zoom.us/j/81263713041pwd=amtkTXdoUmhrc3hFNkFoRUxVV0lFQT09

Zoom ID: 812 6371 3041

Passcode: 967072

Talk 1: Lila Yuwana (2.30 - 3.15 pm)

Web Framework Numerical Programming Using FASTAPI and Python (Case study: Generating entanglement patterns of N-multipartite quantum channel for quantum teleportation)

Abstract: There are immense programming languages to deal with computational problem. We had been striving to present a numerical programming widely via web framework, therefore any platform of PC and cell phone could access or running the script programming. Eventually, we found Python programming that allow flutter and FastAPI to generate application programming interface (API) in web framework. Henceforth, we will present web application developed using Python to solve a problem in quantum teleportation, i.e., the evaluation of n-multipartite prior to be utilized as quantum channel. We will also show the possible sub-entangled states that can be used in quantum teleportation. We have succeeded to develop this web- based programming application to generate entanglement pattern and the application also can be accessed massively. Hopefully, this method can transform other computational applications into accessible web-based application.

Bio: Dr Lila Yuwana is affiliated to the Laboratory of Theoretical Physics and Natural Philosophy, and is a lecturer at the Department of Physics, ITS with research expertise in quantum teleportation, instrumentation and computation

Talk 2: Heru Sukamto (3:15 - 4:00 pm)

Quantum Lenoir Engine in the Presence of Minimal Length

Abstract: The effect of minimal length for quantum heat engine systems is proposed. We use a system of  trapped Fermi particles in  an  infinite  potential  well.  The thermodynamic cycle chosen is the reversible Lenoir cycle.  We use both a single particle case and a multiparticle case. The result is that the minimum length increases the efficiency of the engine if the width of the potential well is infinitely small, and the maximum value is obtained when the width of the potential well is close to zero.

Bio: Dr. Heru Sukamto is affiliated to the Laboratory of Theoretical Physics and Natural Philosophy, and is a lecturer at the Department of Physics, ITS with research expertise in quantum game, quantum heat engine, and quantum teleportation.

Thank you.

Highlights