International Workshop
on Hybrid Quantum Systems and Interfaces 

Period: March 8-11 (Wed-Sat) 2023

Venue: Planet Hollywood Hotel, Las Vegas USA

Overview:

Advances in quantum information technology over the last decades have led to remarkable control of individual quantum systems. However, practical future quantum devices may rely on more than one type of physical systems to harness and maximize functionality and capability of each system. Furthermore, such complementary hybrid architectures require universal bus interface for the communication and networking purpose. The goal of this workshop is to bring together leading experts on diverse sets of quantum systems and to learn about recent efforts and progress to realize hybrid quantum systems and interfaces.

Organizers:

Junho Suh (Korea Research Institute of Standards and Science, KRISS)

Seok-Kyun Son (Kyung Hee University)

Nojoon Myoung (Chosun University)

Hee Chul Park (Institute for Basic Science, PCS-IBS)

Donghun Lee (Korea University)

Mini-Workshop on Quantum and Nano Devices 2022 :
Hybrid quantum systems and interfaces 

(양자나노소자 미니워크샵)

Venue: Online/Offline hybrid

Period: July 7-8 (THU-FRI), 2022

Overview

Advances in quantum information technology over the last decades have led to remarkable control of individual quantum systems. However, practical future quantum devices will rely on more than one type of physical system to harness and maximize the functionality and capability of each system. Transferring information between distant and disparate quantum systems remains an outstanding challenge and requires new types of quantum interfaces. To understand hybrid quantum systems, we need to explore the various quantum systems. The mini workshop will provide two sessions related to quantum systems based on 2D materials and qubits, and we will promote research collaboration and network within the community. 

Organizers:

Dong Hun Lee (Korea Univ.), Taegeun Song (Kongju Nat. Univ.)

Symposium on Quantum and Nano Devices 2020

(제 2회 양자나노소자 심포지엄)

Venue: Online meeting (ZOOM)

Period: November 23 (Mon) ~ 24 (Tue), 2020

개요

올해로 3회를 맞는 양자나노소자 심포지엄에서는 나노 역학, 나노 소자, 나노 중시계 등 양자나노소자 관련 분야를 연구하는 국내 연구자들을 초청하여 최신 연구 결과를 공유하고 교류할 수 있는 장을 마련하는데 노력하여 왔습니다. 이번 심포지엄에서는 “스핀 트로닉스”, “2차원 물질”, “위상 물질”의 세가지 주제를 바탕으로 분야 기초 지식과 (튜토리얼 발표) 최신 연구 동향을 (초청발표) 배워보는 시간을 갖고자 합니다. 본 심포지엄을 통해 양자나노소자 분야 국내 연구자들 사이의 활발한 연구/인적 교류가 있기를 기대합니다. 

Organized by

Dong Hun Lee (Korea Univ.), Junho Suh (KRISS), Seung-Bo Shim (KRISS), Chulki Kim (KIST), Hee Chul Park (IBS-PCS), Taegeun Song (POSTECH), Hyoungkook Choi (Jeonbuk Nat. Univ.) and Nojoon Myoung (Chosun Univ.)

IBSPCS-KIST International Focus Workshop
Physics and Applications in Nanoelectronics
and Nanomechanics 2019

Single-electronics and spintronics are mesoscopic phenomena, which have to do with two fundamental properties of electrons: their charge and their spin. Strong Coulomb correlations of electronic charges and quantum coherence of electronic spins make nanometer-size conductors promising candidates for future mesoscopic devices. The ASG is focused on studying electric weak links as mesoscopic devices in which both electronic charge and electronic spin can be accumulated and controlled. The research effort will include investigations of electric and thermal transport in the limit of strong spin-orbit, magnetic exchange and Coulomb interactions, as well as studies of quantum coherence phenomena involving electronic spins and electronic charges (combined Aharonov-Casher and Aharonov-Bohm interferometry). Special attention will be paid to exploring what possible novel spintronic and single-electronic functionalities can be harvested from devices subject to strong electron spin-orbit, spin exchange and Coulomb interactions (SOI) and to proposing specific experimental investigations of such systems.

Organized by Chulki Kim (KIST), Robert Shekhter (Gothenburg Univ.), and Hee Chul Park (IBS-PCS) 

Symposium on Quantum and Nano Devices 2018

The research area of quantum and nano devices(QND) has developed rapidly in recent years following drastic improvements in device fabrication and measurement methods as well as in theory and modeling. Research about QND coupled new degrees of freedom is not only concerned with fundamental physics such as the mechanical control of single electron charge and spin transport, optical control and cooling of the mechanical degrees of freedom, electromechanical systems that approach or attain the mechanical quantum ground state, and electrical systems that control photons and phonons at the quantum level, but it also aims to develop applications like ultra sensitive mass detectors, chemical & biological sensors, quantum information technology and so on. This workshop will build on the success of three previous nano-mechanics workshops supported by APCTP in 2012 2015, and 2017. Well established researchers from all over the world and young scientists will meet together and share their most recent results on the physics and applications of quantum and nano devices coupled by opto- and electro- mechanical degrees of freedom.

Organized by Jaeyun Cho (APCTP), Dong Hun Lee (Korea Univ.), Junho Suh (KRISS), Seung-Bo Shim (KRISS), Chulki Kim (KIST), Hee Chul Park (IBS-PCS), and Taegeun Song (POSTECH)