경북대학교 물리학과

  • 학과소개
  • 학사
  • 사람들
  • 연구
  • 자료실
  • 동문
  • 취업정보
  • 커뮤니티

경북대학교 물리학과 COMMUNITY 커뮤니티

+ 공지사항
+ 세미나/콜로퀴엄
+ 학과소식
+ 학부생 게시판
+ 대학원생 게시판
+ 일반&수험생 상담
+ 자유게시판

QUICK MENU

  • 웹메일
  • 포털시스템
  • 통합정보시스템
  • 기초교육원
  • 어학교육원
  • 캠퍼스맵

HOME>>커뮤니티>>세미나/콜로퀴엄

세미나/콜로퀴엄


첨부파일 :     Downloading : 18 - 콜로퀴움.jpg
글제목 :     콜로퀴움) Quantum few-body problem in physics-- my research life up to now --
일시 :     2019년 3월 27일 (수) 오후 5:00
장소 :     제1과학관 206호
연사 :     Emiko HIYAMA 교수(일본 이화학연구소(RIKEN)/Kyushu Univ.)
 


□ 제목: Quantum few-body problem in physics
-- my research life up to now --
□ 연사: Emiko HIYAMA 교수(일본 이화학연구소(RIKEN)/Kyushu Univ.)
□ 일시: 2019년 3월 27일 (수) 오후 5:00
다과회 오후 4:45 ~ 5:00
□ 장소: 제1과학관 206호
□ 요약: My main research is few-body problem in physics. This is similar with individual and group behavior based on the interaction between individuals in the social science. A typical problem is that the group may act collectively to achieve a goal that differs from what individuals would act alone.
My research goal is to establish such a method and to apply it to various kinds of interesting and important subjects. The simplest few-body problem is three-body problem. But, it is not easy to solve it. My main research field is nuclear physics. The typical three- and four-body problems in nuclear systems are to study triton nucleus and Helium nucleus. The each particle in nuclei is very strongly interacting with each other and moving very quickly. Then, it is difficult to solve these three- and four-body problem accurately.
To overcome this difficulty, I proposed ‘Gaussian expansion method for few-body systems using infinitesimally-shifted Gaussian-Lobe basis function’. The advantages of the method is i) very easy to perform even for beginners, ii) accurate in the numerical result, iii) applicable to various types of three-, four- and five-body systems interacting via any type of potentials. In the presentation, I will report the method and some successful examples to apply it to nuclear physics.
Including the above research, I also talk on my research in physics, why I became to be researcher and selected to study nuclear physics.
☞ 학생들의 많은 참여 바랍니다(누구나 참석 가능).
 
 
 
이전글 목록 새글쓰기 응답글쓰기 글수정하기 글지우기 다음글



356 세미나)Relativistic models (G3 and IOPB-I) of the neutron-star matter equation of states2019.09.1745
355 콜로퀴움)고출력 레이저와 플라즈마를 이용한 연구 현황2019.09.1648
354 Introduction to the New Physics Search via the T-violation in Compound Nuclei2019.09.03143
353 콜로퀴움) Super-resolution optical microscopy for biology2019.09.03123
352 Detection of Cosmic Rays in the PeV to EeV Energy Range2019.08.22151
351 Introduction to cavity optomechanics2019.07.10397
350 Results of the Telescope Array Experiment on Ultra-High Energy Cosmic Rays and the TA Extension2019.07.03424
349 대학원 물리학과 설명회 자료 게시 안내2019.06.20561
348 콜로퀴움) First-principles calculations; a powerful tool to study materials from physics to materials sc2019.05.31607
347 동문초청 콜로퀴움) 방사선기기팹센터 소개와 이를 활용한 연구(Radiation Equipment Fabrication Center and Its Applications)2019.05.16692
346 2019학년도 1학기 대학원 박사 학위논문 공개발표 안내(II)2019.05.13694
345 2019학년도 1학기 대학원 박사 학위논문 공개발표 안내(I)2019.05.13667
344 2019학년도 1학기 대학원 석사 학위논문 공개발표 안내2019.05.13608
343 콜로퀴움) Energetic costs, precision, and transport efficiency of molecular motors2019.05.09617
342 콜로퀴움) 컴퓨터 시뮬레이션을 통해 바라본 핵융합 플라즈마 난류2019.05.02698
341 콜로퀴움) Quantum computation and simulation(in quantum optical systems)-양자 계산과(양자 광학 시스템에서의) 양자 시뮬레이션2019.04.12889
340 콜로퀴움) 의학물리 소개와 입자가속기의 의학적 이용현황((Medical Physics and Medical Use of Particle Accelerators)2019.04.04877
339 콜로퀴움) NEOS: observation of neutrino oscillation at reactor short baseline2019.03.28981
콜로퀴움) Quantum few-body problem in physics-- my research life up to now --2019.03.141638
337 콜로퀴움) 한국형 암흑물질 탐색 실험(Dark matter search experiment in Korea)2019.03.141583
 1 [2][3][4][5][6][7][8][9][10] ▷▷
목록 새글쓰기




Kyungpook National University Department of Physics
#702-701 대구광역시 북구 산격동 1370번지 경북대학교 자연과학대학 물리학과 / Tel. 053-950-5316 / Fax. 053-952-1739 Copyrights 2011 KNU Department of Physics. All rights reserved. Designed by DMAX
페이스북 트위터