logo

korean english

게시판

Home > 게시판 > 세미나

아래와 같이 콜로퀴움을 개최하오니 많이 참석해 주시기 바랍니다. 4시 10분부터 2층 라운지세미나실에 다과를 준비하오니 많은 참석 부탁드립니다 아 래 제목: Complex networks in technology, biology and sociology 연사: Petter Holme 교수(에너지과학과) 일시: 2009년 9월 11일(금) 오후4:30 장소: 물리학과 세미나실(31355호실) 초록: Statistical mechanics is the branch of physics that deals with macroscopic phenomena emerging from interactions between units. In mainstream physics the units are typically molecules and the interactions electromagnetic, but the methods of statistical physics have much wider applications. In the interface between physics and electric engineering the units can be substations interacting via power lines; interface between physics and cell biology the units can be proteins and the interactions can say whether the genes of proteins regulates each other; in the interface between physics and epidemiology the units are individuals and the interactions represent possibilities of disease transmission; etc. In many systems the interactions take place in a network that is neither random nor completely structured. In such systems, complex networks, one can extract information about the behavior of the system (both its evolution and the dynamics across the network--like the spread of disease in social network or signaling in protein networks). The goals of network physics are both academic--to understand the mechanisms of the evolution of networked systems, especially the feedback from dynamic systems on the network to the system's evolution--and practical--to develop methods for utilizing the information in the networked systems for problems specific to the various areas (to develop protocols to vaccinate a population efficiently, identify drug-targets in biochemical networks, classify and categorize nodes in reference networks like citation networks or the World Wide Web). I will discuss this field in general and some of my contributions to it. 자료를 다운 받으시려면 아래의 링크을 클릭해주세요. http://physics.skku.ac.kr/ppt/20090911.zip
번호 제목 날짜 조회 수
공지 <12/8(Thu.) 11:00am>노벨상 소개 강연 - 2016년 노벨 물리학상: 위상 응집 물리의 탄생 2016.11.28 1078768
265 <5/8> A brief introduction to holographic entanglement entropy 2012.05.07 77052
264 <9/15> 2006.09.07 77030
263 <4/20> Chern-Simons gauge theories and M2 brane CFTs 2009.04.09 77000
262 <11/30> Spinning Black Holes: key to Gamma-ray Bur... 2007.11.26 76998
261 <10/5> 국제핵융합로 프로젝트 및 이와 관련된 초전도 연구 2007.10.01 76565
260 <9/7(금)> Kondo Effect in Chiral Orbital Bands 2012.08.31 76413
259 <4/21(월) 오후 2시> Optical properties of iron-based conductors and superconductors 2014.04.15 76341
258 <4/7> Structure and Dynamics of Complex Networks 2006.04.03 76335
257 <3/11(Mon) 10:30 am ~ >Probing Dark Matter at LIGO and Beyond 2019.03.04 76335
256 <Nov.4(Wed.)>Progresses in Elucidating the Optoelectronic Properties of Perovskite Semiconductor 2020.10.28 76241
255 <11/14> 한방의료기기에서 나노소자의 활용 2008.11.11 76027
254 <4/7(화)> 특별초청세미나 개최 안내 2015.04.01 76014
253 <10/23> Measuring Transfer Reactions with Radioactive Beams 2012.10.15 75969
252 <Sep. 27(Wed.) 4:30 PM> Triboelectric and Piezoelectric Nanogenerators for Self-Powered Electronics 2017.09.20 75845
251 <12/12> 나노물리학과 컴퓨터 시뮬레이션 2008.12.08 75752
250 <3/28> Nanoscale Physics related to Resistance Switchings &Its Applications to Resistance RAM 2008.03.24 75736
249 <May.22(Wed.)> Introduction to exotic quantum states in solids 2019.05.15 75684
248 <12/12> lattice structure in holographic models 2012.12.12 75589
247 <1/16> Higgs-to-diphoton rate in type II seesaw models 2013.01.11 75455
246 <12/21>나노 광전소자 2006.12.31 75423