Conference on Quantum Computation and Simulation (Jul. 5 - 7, 2017)
Oct 20, 2021

July 5-7, 2017

Beijing, China

 

Local Coordinators

Li Lu (Institute of Physics, CAS)

Heng Fan (Institute of Physics, CAS)

Haohua Wang (Zhejiang University)

 

Steering Committee

Jianwei Pan (USTC)

Tao Xiang (Institute of Physics, CAS)

Fuchun Zhang (KITS, UCAS)

 

 

Nowadays, there are growing efforts in building quantum simulating/annealing machines and universal quantum computers. Quantum computation and simulation are believed to be able to greatly enhance our capability in future data processing ranging from understanding the microscopic physical world to solving practical optimization problems relevant to our daily life.

This KITS Conference on Quantum Computation and Simulation will focus on the recent trends and progress in the field, covering topics from a number of different approaches such as superconducting qubits, topological quantum circuits, etc. The aim of the conference is to explore the key problems from elementary single-qubit control/readout to truly functional quantum processors, from sophisticated implementations of quantum algorithms on scalable architectures to possible applications in quantum machine learning, quantum chemistry, etc.

With the effort of bringing together the experts in the field on different approaches, we hope that this KITS conference will stimulate fruitful discussions and bridging helpful collaborations. We cordially invite you to participate in this conference, to witness the emergent frontier technologies of quantum computation and simulation.

 

Registration and Information                                              Conference Brochure Download

 

Jul. 5

Fu-Chun Zhang

KITS, UCAS

Opening Session, Introduction to KITSSlidesVideo

Andreas Wallraff

ETH


SlidesVideo

Yu Chen

Google/UCSB

Building quantum annealer V2.0SlidesVideo

Simon Gustavsson

MIT

Dynamical control techniques with superconducting qubitsSlidesVideo

Yuxi Liu

Tsinghua Univ.

Electromagnetically induced transparency in superconducting quantum circuits: From classical to quantumSlidesVideo

Hartmut Neven

Google

[Public Lecture] An Update from the Google Quantum Artificial Intelligence LabSlidesVideo

Jian-Wei Pan

USTC

Quantum simulation of spin-orbit coupling with Bose gasSlidesVideo

Haohua Wang

Zhejiang Univ.

A 10-qubit superconducting quantum processor for emulating anyonic fractional statistical behaviorSlidesVideo

Xiaobo Zhu

USTC

On resonance quantum switch by longitudinal control field and demonstration of solving linear Equations by superconducting quantum circuitsSlidesVideo
Jul. 6

Jaw-Shen Tsai

RIKEN/Tokyo Univ. Science

Superconducting circuit QED for quantum annealing, computing, and simulationSlidesVideo

Robert McDermott

U Wisconsin-Madison

Measurement and control of superconducting qubits using single flux quantum digital logicSlidesVideo

Hanhee Paik

IBM

IBM Quantum ExperienceSlidesVideo

Shi-Liang Zhu

Nanjing Univ.

The shortcut-to-adiabaticity and its application to quantum computationSlidesVideo

Lin Tian

UC Merced

Quantum simulation and dynamical quantum phase transition with superconducting circuitsSlidesVideo

Michael Marthaler

KIT

Quantum chemistry using superconducting qubitsSlidesVideo

Tiefu Li

CSRC

Nonlinearity in superconducting circuitsSlidesVideo

Runan Shang

USTC

Higher symmetry Kondo effect in quantum dotsSlidesVideo

Heng Fan

IOP, CAS

Long-time entanglement logarithm growth for many-body localization in a superconducting quantum processorSlidesVideo
[Open Mic Discussion]SlidesVideo
Jul. 7

Felix von Oppen

Freie Univ.

Color code quantum computation with Majorana bound statesSlidesVideo

Yaoyi Li

SJTU

Majorana zero mode in the vortex of an artificial topological superconductorSlidesVideo

Hongqi Xu

Peking Univ.

Topological superconducting devices made from semiconductor nanostructuresSlidesVideo

Hao Zhang

TU Delft

Majorana zero modes in semiconductor nanowireSlidesVideo

Ke He

Tsinghua Univ.

Quantum anomalous Hall system as a platform to study topological quantum computationSlidesVideo

Peter Stano

RIKEN

Resistance of the edge mode of a 2D topological insulatorSlidesVideo

Li Lu

IOP, CAS

Search for Majorana zero modes in rf-SQUIDs constructed on Bi2Se3 surfaceSlidesVideo

Martin Plenio

Ulm Univ.

Diamond quantum devices: From quantum simulation to hyperpolarised magnetic resonance imagingSlidesVideo

Kihwan Kim

Tsinghua Univ.

Trapped ion system for molecular spectroscopySlidesVideo
[Open Mic Discussion & Closing]SlidesVideo