한국물리학회 회원님께,

오는 4월 20일(수)부터 4월 22일(금)까지 2022 봄학술논문발표회(2022 KPS Spring Meeting)가 개최됩니다. 코로나19 감염증 유행이 지속되고 오미크론 확산이 심각해짐에 따라 회원님들의 안전을 위하여 이번 학술대회도 온라인으로 개최됨을 알려드립니다.

2022 봄 학술논문발표회 구두발표 및 포스터발표를 원하시는 회원님께서는 다음 사이트에서 마감일시까지 초록을 제출해 주시기 바랍니다.

Abstract Submission

Abstract Submission Deadline: March 4, 6pm >> March 8 (Tue.), 2022, 18:00 (GMT+9)  

이번 학술논문발표회에서는 기조강연, 21개의 파이오니어 심포지엄, 30개의 포커스 세션, 5개의 튜토리얼 세션과 함께 다양한 세션이 준비되어 있습니다. 특히 이번 학술대회에서 포스터와 전시회는 메타버스(Metaverse) 플랫폼을 도입하여 보다 오프라인에 가까운 발표와 자유로운 논의 및 관람이 가능할 예정입니다. 또한 메타버스(Metaverse) 플랫폼에서 자유롭게 이용할 수 있는 만남의 공간 및 미팅룸을 운영하여 발표장 밖에서 추가 토론이 필요할때 사용하실 수 있도록 운영될 예정입니다. 회원님들의 많은 참여 부탁드리며, 특히 학생회원님들의 적극적인 발표(구두/포스터) 참여를 기대합니다.

IMPORTANT  DATES

PLENARY LECTURE

Abstract:

Atoms absorb electromagnetic radiation at precise discrete frequencies. Knowing this, a recipe for making an atomic clock is simple to state: we first need an oscillator to produce the radiation and a device that fixes the radiation frequency for maximum atomic absorption. We then simply count cycles of the oscillator; the duration of a certain number of cycles defines a unit of time, e.g., the second. Today, the most accurate clocks count cycles of radiation corresponding to optical wavelengths, around a million billion per second. At this level, many interesting effects, including those due to Einstein’s relativity, must be accounted for.

Atoms can also be used to store bits information. For example, we can label the atom’s lowest energy state a “0" and a state of higher energy a “1.” However, quantum systems such as atoms can also exist in “superposition” states, thereby storing both states of the bit simultaneously, a situation that makes no sense in our ordinary-day experience. Superposition leads to an exponential increase in memory and processing capacity. It would enable a quantum computer to simulate the action of other important quantum systems in cases where such a simulation would be intractable on a conventional computer.

Experiments in which laser-beam-manipulated “trapped” atomic ions are used to realize atomic clocks and the elements of a quantum computer will be described.

PIONEER  SYMPOSIA

• [Particle Physics, Astrophysics, Statistical Physics] Novel Perspectives in Black Hole Information Paradox

• [Particle Physics] Dark matter and neutrino searches with scintillating detectors

• [Nuclear Physics] Equation of state of nuclear matter

• [Nuclear Physics] Status of RAON and Nuclear Physics Experiments

• [Condensed Matter Physics, Biological Physics, Applied Physics] Nano-Rheology and Physics of Complex Fluids

• [Condensed Matter Physics, Applied Physics] Orbital conversion physics for future spin-orbitronics

• [Condensed Matter Physics] Physics of Hund’s strange metal - Recent progresses

• [Condensed Matter Physics] Novel Phases in Correlated Topological Matter

• [Condensed Matter Physics] Quantum geometrical properties of flatbands and experimental realization

• [Condensed Matter Physics] Recent advancements of Kitaev and topological magnetism

• [Condensed Matter Physics] Exploring Interfaces and Surfaces in Functional Materials

• [Condensed Matter Physics] Moiré quantum materials

• [Condensed Matter Physics] Coherent manipulation of artificial surface quantum spins

• [Applied Physics, Condensed Matter Physics] Artificial Intelligence Aided Discovery and Investigation of Novel Nanomaterials

• [Applied Physics, Condensed Matter Physics] Non-Equilibrium Quantum Materials: Experiments & Theory

• [Optics & Quantum Electronics] Soft Matter Physics & Optics

• [Atomic & Molecular Physics] Ultrafast phenomena in atoms and molecules

• [Semiconductor Physics] Exciton-polaritons for novel semiconductor photonics

• [Semiconductor Physics] Low-dimensional nanomaterials and 2D van der Waals Heterostructures

• [Semiconductor Physics] The 2^nd Korea-Vietnam Joint Workshop

• [Semiconductor Physics] Semiconductor based sensors applications

TUTORIAL  SESSIONS

• [Particle Physics] 양자컴퓨팅 기법 소개 (Introduction to Quantum Computing) | 초청연사: 권혁준 (KIAS)

• [Condensed Matter Physics] 초전도 양자소자 (Superconducting quantum device) | 초청연사: 이길호(포항공대)

• [Physics Teaching] 한 물리학자의 학교과학 탐구: 초중등 물리교과를 중심으로(A Physicist’s School Science Study: Focusing on Elementary and Secondary Physics Subjects) | 초청연사: 현동걸(제주대)

• [Semiconductor Physics] Deep Level Transient Spectroscopy를 이용한 반도체 결함 분석 (Analysis of Defects in Semiconductors with Depp Level Transient Spectroscopy) | 초청연사: 김은규(한양대)

• [Semiconductor Physics] Excitons in semiconductors: Light-matter interactions | 초청연사: 조창희 (대구경북과학기술원)

• [Biological Physics] Molecular switches regulating structures and interactions of protein nanotubes | 초청연사: 최명철 (한국과학기술원)

More Designed Programs for 2022 KPS Spring Meeting >> (click)