https://qclab.korea.ac.kr/QCLab/index.php?action=history&feed=atom&title=Simulating_Quantum_Systems_on_Classical_ComputersSimulating Quantum Systems on Classical Computers - Revision history2026-06-19T15:53:46ZRevision history for this page on the wikiMediaWiki 1.45.1https://qclab.korea.ac.kr/QCLab/index.php?title=Simulating_Quantum_Systems_on_Classical_Computers&diff=1708&oldid=prevMahnsoo.Choi: Protected "Simulating Quantum Systems on Classical Computers" ([Edit=⧼protect-level-board⧽] (indefinite) [Move=⧼protect-level-board⧽] (indefinite))2017-08-08T08:22:14Z<p>Protected "<a href="/main/Simulating_Quantum_Systems_on_Classical_Computers" title="Simulating Quantum Systems on Classical Computers">Simulating Quantum Systems on Classical Computers</a>" ([Edit=⧼protect-level-board⧽] (indefinite) [Move=⧼protect-level-board⧽] (indefinite))</p>
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</table>Mahnsoo.Choihttps://qclab.korea.ac.kr/QCLab/index.php?title=Simulating_Quantum_Systems_on_Classical_Computers&diff=1705&oldid=prevMahnsoo.Choi: Created page with "* Speakers: Prof. Nation, Paul (Korea Univ) * Date: Tuesday October 16, 2012 Recently there has been a great deal of interest, both theoretical and experimental, in cont..."2017-08-08T08:20:59Z<p>Created page with "* Speakers: Prof. <a href="/main/Nation,_Paul" title="Nation, Paul">Nation, Paul</a> (Korea Univ) * Date: Tuesday October 16, 2012 Recently there has been a great deal of interest, both theoretical and experimental, in cont..."</p>
<p><b>New page</b></p><div>* Speakers: Prof. [[Nation, Paul]] (Korea Univ)<br />
* Date: Tuesday October 16, 2012<br />
<br />
<br />
Recently there has been a great deal of interest, both theoretical and experimental, in<br />
controlling the dynamics of individual quantum systems. Not only does this allow for<br />
fundamental tests of quantum mechanics, but it is also a necessary prerequisite for quantum<br />
computation. Traditionally, quantum mechanics has been confined to atomic and molecular<br />
length scales. However, driven by the goal to achieve a viable quantum computer, advances<br />
in experimental and manufacturing techniques have opened up the possibility of producing<br />
micro- and nanometer scale devices with controllable parameters that are firmly in the<br />
quantum realm. These engineered systems can now be realized with a wide range of<br />
different technologies such as quantum optics, superconducting circuits, semiconducting<br />
quantum dots, nanomechanical devices , and ion traps. With this increased interest in<br />
engineered quantum devices, and a quantum computer out of reach for the foreseeable<br />
future, simulating the dynamics of these systems must be performed on a classical computer.<br />
In this talk, we will look at some of the challenges of simulating real-world quantum<br />
systems on classical hardware, and the various methods used in the calculations. We will<br />
also look at some examples using QuTiP: The Quantum Toolbox in Python, being developed<br />
at Korea University in collaboration with RIKEN in Japan, that is now the predominate<br />
numerical software used in simulating these mesoscopic systems.<br />
<br />
[[Category: Colloquiums]]<br />
[[Category: Seminars]]</div>Mahnsoo.Choi