Asia-Pacific Workshop on Trapped Quantum Systems

From KAIST Quantum Computing Lab Wiki
Revision as of 09:23, 18 February 2019 by J Ahn (talk | contribs)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigationJump to search

Asia-Pacific Workshop on Trapped Quantum Systems (APTQS-2019)

This workshop, as a second meeting after APTQS-2017 at Zhuhai, aims to gather together regional experts on trapped quantum systems, to discuss challenges and new directions in the field of atomic precision metrology, quantum sensing, and quantum computing. We hope this workshop provides an inspiring venue for exploring new perspectives on fundamental understanding and breakthrough technologies, involved with trapped quantum systems.

KAIST Academic Culture Complex

1. Place: KAIST (Daejeon, Korea)

2. Date: February 21-23 (Thursday-Saturday), 2019.

3. Program Committee: Jaewook Ahn (KAIST), Kenji Toyoda (Osaka), Kihwan Kim (Tsinghua), Dzmitry Matsukevich (NUS), Le Luo (Sun Yatsen U.)

4. Local Organizing Committee: Heejeong Jeong (KAIST), Chang Yong Park (KRISS), Jaewook Ahn (KAIST)

5. Contact information: aptqs2019@gmail.com (or jwahn@kaist.ac.kr)

6. How to come to KAIST (Daejeon): Airplane-Bus-Taxi, http://www.kaist.edu/html/en/kaist/kaist_01070705.html

7. Registration is closed.


8. Program schedule (tentative)


February 22nd, 2019 (Friday)

09:30-12:10 Session A, Atomic precision metrology

Piet Schmidt (Hannover U.) Quantum logic spectroscopy of highly-charged ions

Hiroki Takahashi (U. Tokyo) Strong coupling of a single ion to an optical cavity

Murray Barrett (NUS-CQT) Progress towards a multi-ion optical clock with Lu+

Ping-Xing Chen (N. U. Def. Tech., China) Weak value amplification via pure atomic degrees of freedom

Kazuhiro Hayasaka (NICT, Japan) Ion optical clocks extended to multi-ion systems


13:00-15:40 Session B, Neutral-atom quantum computing

Mark Saffman (U. Wisconsin) Entangling atomic qubits with Rydberg interactions

Thomas Pohl (Aarhus U., Denmark) Quantum gates with Rydberg excitations and photons

David S. Weiss (Penn State U) Quantum computing with neutral atoms in a 3D optical lattice

Ken'ichi Nakagawa (UEC, Japan) Quantum simulation of many-body systems with cold Rydberg atoms

Jaewook Ahn (KAIST) Coherent control approaches to trapped atom systems


16:00-18:00 Session C, Alternative approaches (1)

Jongseok Lim (Imperial College, UK) Revealing undiscovered forces using ultracold molecules

Manas Mukherjee (NUS-CQT, Singapore) Single atom heat engine with quantum load

Shau-Yu Lan (NTU, Singapore) Cold atom laboratory in the hollow-core photonic waveguide

Jungsang Kim (Duke U., USA) Progress in trapped ion quantum computing


February 23rd, 2019 (Saturday)

09:30-12:10 Session D, Trapped-ion quantum computing

Kihwan Kim (Tsinghua U.) Scalable global entangling gates on arbitrary ion qubits

Le Luo (Sun Yat-sen U., China) Simulating dissipative quantum systems with optically-trapped ultracold atoms

Taehyun Kim (SNU, Korea) Observation of Hong-Ou-Mandel effect between two photons emitted by two ions trapped in separate chambers

Winfried Hensinger (U. Sussex, UK) Developing a modular microwave trapped ion quantum computer

Dzmitry Matsukevich (NUS, Singapore) Continuous variables quantum computations with trapped ions


13:00-15:30 Session E, Quantum simulations

Joonsuk Huh (SKKU, Korea) Quantum simulation methods for molecular vibronic spectra

Gyu-Boong Jo (HKUST) Quantum simulation of 3D topological phases with ultracold fermions

Kenji Toyoda (Osaka U.) Propagation of a local vibrational quantum in a trapped-ion string as a quantum walk

Jae-yoon Choi (KAIST) Quantum simulation of many-body localization in two-dimensions using ultracold atoms in optical lattices

Yogesh Narayan Joglekar (IUPUI, USA) Non-Hermitian quantum simulations


16:00-18:00 Session F, Alternative approaches (2)

Sangkyung Lee (Agency for Defense Development) Rotation sensing with a cold atom interferometer gyroscope and an atom spin gyroscope

Waranont Anukool (Chiang Mai U., Thailand) High-fidelity Bell states generation of any pair of rubidium atoms in a 5x5 dipole-trap array

Ying Li (GS-CAEP, China) Algorithmic error mitigation and temporal correlation on quantum computer

Lin Li (Huazhong U. Sci. Tech., China) Raising optical Schrödinger's cats with a cavity QED system