visual
visual

세미나

  • HOME
  • >
  • 소식
  • >
  • 세미나
날짜 2018-04-13 10:00 
연사  
장소 #1323 (E6-2, 1st fl.) 

Physics Seminar

 

Quantum meets Mechanics: from Quantum Information to Fundamental Research

 

Dr. Sungkun Hong

Vienna Center for Quantum Science and Technology, University of Vienna

 

April 13 (Fri.), 10am

#1323 (E6-2, 1st fl.)

 

 

Abstract:

Studying quantum aspects of macroscopic moving bodies is a new emerging field in quantum physics. The main experimental approach is cavity optomechanics, where photons in the cavity are used to measure and manipulate motional states of mechanical oscillators. Cavity optomechanics, together with advancements in microfabrication of mechanical devices, has allowed us to observe and control mechanical resonators at the quantum level. This opens new exciting possibilities for quantum information science and for studying quantum physics in hitherto untested macroscopic scales.

In this talk, I will describe two different quantum optomechanics experiments that I have been doing in Vienna. First, I will present our progress in utilizing on-chip optomechanical devices as a new resource for quantum information. Using micro-fabricated silicon structures, we demonstrated the generation of quantum-correlated photon-phonon pairs, the generation and retrieval of single phonons, and the remote entanglement between two mechanical modes, paving the way for telecom-compatible optical quantum networks. Future directions of the work will also be discussed. Next, I will introduce a novel, hybrid optomechanical system consisting of optically levitated nanoparticles and micro-fabricated photonic crystal cavity. The system combines ultra-high mechanical quality of the levitated nanoparticle and strong optical transduction from the optical cavity. It thus will allow for quantum coherent experiments on particle’s motions even at room temperature. I will discuss the current status of the experiment as well as future plans of the work, particularly the matter-wave interferometry in an unexplored mass regime.

 

Contact: Yongseop Kang, Administration Team (T.2599)

 

Department of Physics

번호 날짜 연사 제목
316 2021-01-28 18:00    Quantum metamaterials: concept, theory, prototypes and possible applications file
315 2021-01-28 15:00    Topological Transport of Deconfined Hedgehogs in Magnets file
314 2020-12-23 10:00    Online workshop for Quantitative Phase Imaging file
313 2020-12-11 16:00    Atomic and electronic reconstruction at van der Waals interface in twisted 2D materials
312 2020-12-11 14:30    Antisymmetric interlayer exchange coupling in magnetic multilayers
311 2020-12-10 13:55    Consistency of Boltzmann equation and light dark matter from inflaton decay
310 2020-12-09 10:00    Searching for the QCD axion with the ARIADNE experiment file
309 2020-12-02 10:00    Recent progress in Axion Dark Matter eXperiment (ADMX) technology file
308 2020-11-26 16:00    2020 가을학기 광학분야 특별세미나(Light Engineering Beyond the Diffraction Limit)
307 2020-11-20 16:00    Coherent control of field gradient induced quantum dot spin qubits
306 2020-11-20 14:30    Lumpy Cooper pairs in an iron-based superconductor
305 2020-11-17 12:00    Quantum- & Nano-Photonics" 세미나 시리즈 file
304 2020-11-12 16:00    2020 가을학기 광학분야 특별세미나
303 2020-10-23 14:00    Plasmon spectroscopy of low-dimensional superconductors in fluctuating regime file
302 2020-10-16 16:00    Hidden room-temperature ferroelectricity in CaTiO3 revealed by a metastable octahedral rotation pattern file
301 2020-10-16 14:30    Nanoscale magnetic resonance detection towards nano MRI file
300 2020-10-15 17:00    Time crystals, quasicrystals, and time crystal dynamics in the superfluid universe file
299 2020-10-15 16:00    Graphene-based Josephson junction microwave bolometer file
298 2020-10-15 16:00    Towards resource-efficient and fault-tolerant quantum computation with nonclassical light
297 2020-10-09 09:00    Quantum Many-Body Simulation file