KSHEP 2024 Fall Meeting

28 Nov 2024, 12:00 → 30 Nov 2024, 15:00 Asia/Seoul

대학본부(201동) 2층 대강당 (울산과학기술원(UNIST))

사단법인 한국고에너지물리학회 (KSHEP) 의 2024년도 가을 학술대회를 아래와 같이 개최합니다.

일시: 2024년 11월 28일 - 30일  
장소: 울산과학기술원 대강당 (201동 대학본부 2층)

주최: 한국고에너지물리학회  
주관: 울산과학기술원(UNIST), 한-CERN 이론물리 협력사업팀, 한국과학기술정보연구원(KISTI)

한국고에너지물리학회는 우리나라의 핵물리학, 입자물리학, 천체물리학, 그리고 가속기 및 검출기 분야 전문가들로 구성된 국내 최대의 고에너지물리학 분야 전문 학술 단체로, 유럽핵입자물리연구소 (CERN), 미국의 페르미국립연구소 (FNAL), 브룩헤이븐국립연구소 (BNL), 일본의 고에너지물리 연구소 (KEK)와 같은 국립고에너지물리연구소 설립을 목표로 만들어진 특수목적 학회입니다.

이번 학술대회에서는 우리나라 학자들의 공헌이 두드러진 퍼지 암흑물질과 액시온 암흑물질 탐색 연구, Gaia 데이터 정밀분석, 중이온가속기와 CENS 실험, 최근 적극적으로 추진 되고 있는 여러 국제협력 프로젝트와 우리나라가 주도하거나 중추적인 역할을 하고 있는 다양한 고에너지물리학 분야의 연구 현황을 정리하고, 중장기 발전방향을 집중적으로 논의할 것입니다.

또한, 기초과학연구원이 추진하고 있는 고에너지 물리 연구소(국제 고에너지물리 협력센터 및 검출기 공동 연구개발센터 포함)에 대한 계획과 논의, 그리고 이에 대한 패널 토론이 있을 예정이니 많은 관심 부탁드립니다.

학술대회 주제: 한국의 고에너지물리학 연구 현황과 발전 방향  
학술대회 주요 내용:

1. 천체물리학: 퍼지/액시온 암흑물질 탐색, GLIMPSE, 뉴턴중력분석, 아인슈타인망원경
2. 핵물리학: RAON과 CENS, 한-CERN(ALICE)
3. 입자물리학: 한-CERN(이론, CMS), Belle / Belle II 실험, COHERENT 실험, 예미랩 지하실험 (AMoRE, COSINE), 중성미자 정밀연구
4. 정책 세션: 한국고에너지물리연구소 설립 방안
5. 신진 연구자 세션 (고에너지물리학 분야 신진 박사 및 신임 교원/연구자 소개)

회원 여러분의 많은 참여를 기다립니다.

2024. 10. 07.  
한국고에너지물리학회

학회 홈페이지: https://www.kshep.kr/  
인디코: https://indico.kshep.kr/e/kshep2024fall  
회비 납부 및 등록: https://www.kshep.kr/page/activities/event/5 

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주차 안내

울산과학기술원 주차장은 유료주차장으로(일 최대 19,000원), 주차권 제공이 필요한 참석자는 다음 이메일로 11월 24일까지 주차권 신청을 하시기 바랍니다. 

gyjun18@unist.ac.kr (UNIST 물리학과 전경윤 선생님)

함께 송부해야하는 정보는 다음과 같습니다.
(1) 성명 (2) 소속 (3) 참석하는 일자[28일 - 30일 중]

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포스터 발표

이번 학술대회에는 포스터 발표 세션이 있습니다.

포스터 발표는 친환경 기조에 맞게, 출력하지 않고 온라인 포스팅으로만 진행합니다. 
온라인 열람하신 후 질문 등에 대해서는 개별 발표자에게 문의하시기 바랍니다. 

우수한 포스터를 선발하여 학술대회 중에 Flash Talk (5분) 기회를 제공할 예정입니다. 
포스터 발표를 원하는 회원분들께서는, 다음 페이지를 참고하여주십시오. 
https://indico.kshep.kr/event/839/page/67

 

Thursday, 28 November

13:00 → 14:00 등록

14:00 → 16:00 1-1

14:00 Yemilab status focused on the COSINE and AMoRE experiments

In September 2022, Yemilab, a new underground laboratory in Korea, was completed in Jeongseon, Gangwon Province. Located 1,000 meters below ground, it offers an exclusive experimental area of 3,000 m². Currently, preparations are underway for the AMoRE-II experiment, which seeks to explore neutrinoless double beta decay, and for the COSINE-100 upgrade (COSINE-100U), a direct dark matter detection experiment. Since 2022, Yemilab’s infrastructure has been enhanced to support rare event search experiments. In this presentation, I will discuss the physics achievements of the AMoRE and COSINE-100 experiments conducted at the Yangyang Underground Laboratory and provide an update on the current progress of Yemilab’s installation and experimental setup.

Speaker: Prof. 현수 이 (IBS-CUP)

14:40 Recent results of CENS

Speaker: Dr 득순 안 (CENS)

15:20 Recent results from the ALICE Collaboration

ALICE (A Large Ion Collider Experiment) 실험은 CERN의 대형 강입자 충돌기(LHC)에서 수행되는 주요 실험 중 하나로, 중이온 충돌에서 생성되는 극한의 고온과 고밀도 상태의 물질인 쿼크-글루온 플라즈마(QGP)를 연구하는 것이 중요한 연구 주제입니다. ALICE 실험은 입자의 궤적을 찾는데 중요한 역할을 하는 실리콘 검출기(ITS2)와 시간투영검출기(TPC)의 신호수집장치를 업그레이드 하여 높은 통계량의 데이터를 Run 3 기간 동안 수집하면서, 향후 Run 4, Run 5 에서의 검출기 업그레이드를 위한 연구들도 진행되고 있다. 한국 ALICE 그룹에서는 다양한 주제에 대한 데이터 분석 연구와 함께 실리콘 검출기 개발 연구에 활발하게 참여하고 있으며, 본 발표에서는 한국 그룹에서 수행하고 있는 주요 연구에 대해서 소개할 예정이다.

Speaker: Prof. 상훈 임 (부산대학교)

16:00 → 16:20 휴식

16:20 → 18:20 1-2

16:20 Recent results in Belle and Belle II experiments

Speaker: Dr 경호 김 (KISTI)

17:00 Status of GLIMPSE and Angular Modulation

Speaker: Prof. 종철 박 (충남대학교)

17:40 Observations of Ultra-High Energy Cosmic Rays and Radio Galaxies as their Origin

Ultra-high-energy cosmic rays (UHECRs) are currently being observed in two leading experiments, the Pierre Auger Observatory (PAO) in the southern hemisphere and the Telescope Array (TA) in the northern hemisphere. Despite similar experimental methodologies, the two experiments report discrepancies in their observations, particularly at energies above a few tens EeV. Specifically, the particle flux observed by PAO is lower than that by TA, and the mass composition appears to be heavier at PAO than at TA. Radio galaxies (RGs) are the most promising sources for UHECRs, and we investigated the RG origin of UHECRs through relativistic hydrodynamic simulations of FR I/II type jets and Monte Carlo simulations of particle transport and acceleration. While diffusive shock acceleration is the dominant process at energies below EeV, relativistic shear acceleration at the jet-cocoon interface is more important at lower energies. The resulting energy spectrum is best described by a double power law with an ``extended'' exponential cutoff. We then simulated the propagation of UHECRs from RGs both in the local universe and at cosmological distances, through the intergalactic space to Earth. Our results suggest that UHECRs in the northern hemisphere exhibit a higher flux and a lighter composition at the highest energies than in the southern hemisphere if they are originated from RGs. We attribute this to the fact that Virgo A has a jet with a higher Lorentz factor compared to Centaurus A and Fornax A. These findings offer a potential explanation for the discrepancies in UHECR flux and mass composition observed by the PAO and TA experiments.

Speaker: Prof. 동수 류 (UNIST)

18:20 → 20:20 환영만찬

Friday, 29 November

09:20 → 10:40 2-1

09:20 Recent results from the CMS Collaboration

Speaker: Prof. 창성 문 (경북대학교)

10:00 Theoretical Development of the Particle Physics 2024

Speaker: Prof. 형도 김 (서울대학교)

10:40 → 11:00 휴식

11:00 → 12:20 2-2

11:00 Search for QCD axions in CAPP

Speaker: Dr 성우 윤 (IBS-CAPP)

11:40 Ultralight Cold Dark Matter

Ultralight cold dark matter, also known as fuzzy dark matter or ultralight axion, is a scalar field with an extremely light mass of approximately 10^{-22} eV. In this model, dark matter in galactic halos exists in a Bose-Einstein condensate state and is described by a macroscopic wave function with a de Broglie wavelength on the order of a kiloparsec. This approach offers potential solutions to small-scale issues in the cold dark matter (CDM) paradigm and may help explain several cosmological mysteries, such as galaxy sizes and masses, the satellite galaxy plane, the Hubble tension, and the final parsec problem. If the scalar field attains a field value at the grand unified theory (GUT) scale, it can account for the observed dark matter density. In models with interactions, the field could be a pseudo Nambu-Goldstone boson associated with the GUT phase transition, which may also yield insights into the mass of neutrinos and the electroweak interaction scale.

Speaker: Prof. 재원 이 (중원대학교)

12:20 → 13:50 Lunch

13:50 → 16:10 2-3

13:50 Multi-messenger Astrophysics of Extragalactic TeV-PeV Neutrino Emitters

The detection of TeV-PeV neutrinos by the IceCube Neutrino Observatory, alongside KM3Net and Baikal-GVD, has unveiled a new view into the most extreme high-energy processes in the universe. As of 2024, nearly 300 astrophysical track-like TeV-PeV neutrino events have been detected, though their exact astrophysical counterparts remain largely unidentified, limited by the localization accuracy of current neutrino observatories. However, growing evidence suggests a strong association between these high-energy neutrinos and supermassive black holes with powerful relativistic jets. In this talk, I will review some leading astrophysical scenarios for high-energy neutrino production, highlighting recent multi-messenger approaches that combine neutrino detections with electromagnetic observations from radio to gamma-ray wavelengths. I will also present our ongoing studies using high-resolution very-long-baseline interferometric observations of IceCube neutrino fields to study candidate sources. Additionally, I will briefly introduce the Square Kilometer Array (SKA), an upcoming transformative radio telescope array that will enable high-resolution, real-time monitoring of the dynamic high-energy universe.

Speaker: Prof. 재영 김 (UNIST)

14:30 COHERENT: A 1-ton Liquid Argon CEvNS Detector

Speaker: Prof. 종희 유 (서울대학교)

15:10 Low-acceleration gravitatioinal anomaly and its implications

The gravitational anomalies observed in galaxies and galaxy clusters based on standard gravity have been interpreted as the presence of dark matter. Internal orbital motions of nearby wide binaries (widely separated, long-period, gravitationally bound binary stars) are free from the effects of the inferred dark matter density in the Milky Way and thus can be used to directly probe low-acceleration gravity regardless of the dark matter concept. Several recently published and ongoing analyses of wide binaries from the Gaia DR3 database show clear evidence for gravitational anomaly in the low-acceleration regime (< 1 nanometer per second squared) that is equivalent to the acceleration regime for the gravitational anomaly in galaxy rotation curves.
Wide binary anomalies indicate that standard gravity is broken in the low-acceleration regime. Standard gravity satisfies the strong equivalence principle (SEP) beyond Galilei’s universality of free-fall (or the weak equivalence principle). Interestingly, the degree and trend of wide binary anomalies are consistent with the generic prediction of modified gravity theories such as AQUAL under Milgrom’s paradigm of modified Newtonian dynamics (MOND). MOND obeys the universality of free-fall but breaks the strong equivalence principle.
As long as the current evidence for wide binary gravitational anomalies is not a fluke, a new scientific revolution is inevitable. Einstein’s general relativity needs to be extended or replaced by a new theory. Astrophysical dynamics and cosmology based on general relativity or Newtonian dynamics require a major revision. The concept of unidentified dark matter needs to be rethought. I will show how future data and analyses can solidify the current evidence and make it a true scientific fact.

Speaker: Prof. 규현 채 (세종대학교)

16:10 → 16:30 휴식

16:30 → 17:50 2-4: 정책세션 : 한국 고에너지물리학 연구소 설립 방안

16:30 고에너지물리학연구소 설립 방안

Speaker: Prof. 영덕 김 (IBS-CUP)

17:10 패널토론

1) HEP실험: 권영준 교수 (Belle실험 경험을 통한 고에너지물리연구소의 필요성)
2) HEP 이론: 이승준 교수 (CERN 이론팀과의 협력 경험)
3) IBS 클러스터: 이현수 교수 (클러스터에 비한 연구소 체재의 장점)
4) 검출기: 김홍주 교수 (고에너지물리협의회 역사와 취지, 검출기 시설 및 엔지니어 집적화 필요성)
5) 미래세대: 윤인석 박사 (학문후속세대를 위해 고에너지물리연구소가 생겨야 하는 이유)

Speaker: Prof. 운기 양 (서울대학교)

17:50 → 18:20 총회

18:20 → 20:20 학회 만찬

Saturday, 30 November

09:20 → 10:40 3-1

09:20 CO Intensity Mapping for Capturing the Star-formation History in the Early Universe

Line-intensity mapping (LIM) is an observational technique that has recently been actively used in astronomy and astrophysics research. LIM utilizes relatively small aperture telescopes to perform large-area surveys, effectively analyzing the brightness distribution of galaxies and intergalactic medium through their spectral line emissions. Probing astrophysics and cosmology using LIM has been gaining attention, with several experiments already in operation or planning deployments. Among these is the carbon monoxide (CO) Mapping Array Project (COMAP), which uses CO line emission to explore molecular gas that traces star formation. The COMAP Pathfinder currently observes at 26-34 GHz to measure the CO power spectrum at redshifts 2.4-3.4, near the peak of the star formation in cosmological history. In this presentation, I will provide an overview of COMAP's observational techniques and introduce the planned development of a prototype receiver that will be operating in the 12-20 GHz range to study the 115.27 GHz CO line emission originating from z=4.8-8.6 near the epoch of reionization.

Speaker: Prof. 준한 김 (KAIST)

10:00 Einstein Telescope: A 3rd Generation Gravitational Wave Detector

Speaker: Dr 성호 이 (천문연구원)

10:40 → 11:00 휴식

11:00 → 12:20 3-2

11:00 Neutrino Telescope at Yemilab

지하실험 연구시설 중 하나인 예미랩은 2022년 9월에 완공되었고 이에 따라 다양한 분야의 실험들이 이미 진행되고 있거나 앞으로 계획되고 있다. 예미랩에는 약 2 kton의 검출기를 설치할 수 있는 대규모 공간이 마련되어 있고 이 공간을 활용한 중성미자 망원경 실험에 대한 논의를 진행한다.

Speaker: Prof. 은일 원 (고려대학교)

11:40 Status of CPNR

Speaker: Prof. 경광 주 (전남대학교)