Quantum Control Lab: Difference between revisions

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Latest revision as of 00:44, 8 May 2025

Recent News

The Quantum Control Internship is open all year round. Apply through the School of Quantum.
We are organizing the Wolfram Language Conference 2023 (previously, Korea Mathematica User Conference).
We have organized the Quantum Camp on "Variational Quantum Algorithms: Challenge or Excuse".
We are a member of the Center for Quantum Sapient Workforce funded by the Ministry of Science and ICT of Korea.

We seek physical principles and methods for coherent manipulation of quantum states. More specifically, we work in

Quantum Computation and Quantum Simulation,
Quantum Machine Learning,
Quantum Information Theory,
Superconductivity and Superconducting Quantum Circuits,
Quantum Information Processing with Spins,
Quantum Charge and Spin Transport, etc.

양자상태를 결맞게 제어할 수 있는 물리적 원리 및 방법론을 찾아 양자컴퓨팅 및 양자시뮬레이션, 양자AI 등에 적용하고, 초전도 양자컴퓨터나 스핀 양자컴퓨터 등과 같은 하드웨어 개발을 위한 양자이론을 연구한다.

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-{{Note|This site is still suffering from technical problems. Navigating through this site may not be very convenient for you. Apologies for your inconvenience.}}
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 {{News| Recent News|
+* The [[Quantum Control Internship]] is open all year round. Apply through the [https://QuantumWorkforce.kr School of Quantum].
 * We are organizing the [[WLC2023|Wolfram Language Conference 2023]] (previously, Korea Mathematica User Conference).
 * We have organized the [[Variational Quantum Algorithms: Challenge or Excuse| Quantum Camp on "Variational Quantum Algorithms: Challenge or Excuse"]].
-* The [[Quantum Control Internship]] is open all year round. Apply through the [https://QuantumWorkforce.kr Quantum Workforce Center].
 * We are a member of the [https://QuantumWorkforce.kr Center for Quantum Sapient Workforce] funded by the Ministry of Science and ICT of Korea.
 }}
-<span class="oo-ui-icon oo-ui-icon-edit"></span>
+We seek physical principles and methods for coherent manipulation of quantum states.
+More specifically, we work in
-We seek physical principles and methods for coherent manipulation of quantum states of mesoscopic systems, and study<br/>
+* Quantum Computation and Quantum Simulation,
-the effects of such manipulation on various phenomena including quantum transport and quantum information processing.<br />
+* Quantum Machine Learning,
+* Quantum Information Theory,
-More specific fields are:
+* Superconductivity and Superconducting Quantum Circuits,
-* Quantum Computation and Quantum Information.
+* Quantum Information Processing with Spins,
-* Superconductivity and Superconducting Quantum Circuits.
+* Quantum Charge and Spin Transport, etc.
-* Spin Transport and Quantum Information Processing with Spins.
-* Quantum Transport in Mesoscopic Systems.
-양자상태를 결맞게 조작할 수 있는 물리적 원리 및 방법론을 찾고, 특별한 양자상태에따라 달라지는 수송현상, 양자정보처리 등을 연구한다.
-{{Block|
+양자상태를 결맞게 제어할 수 있는 물리적 원리 및 방법론을 찾아 양자컴퓨팅 및 양자시뮬레이션, 양자AI 등에 적용하고, 초전도 양자컴퓨터나 스핀 양자컴퓨터 등과 같은 하드웨어 개발을 위한 양자이론을 연구한다.
-Everything has beauty, but not everyone sees it. <br />
--- Confusius --}}
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