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성명
주경광 교수
연구실
자4-302호
교수전공 및 연구분야
고에너지 물리
연락처
(062) 530 - 3483
이메일
kkjoo@chonnam.ac.kr
홈페이지
http://168.131.177.72 GO
약력

학력 (Education)
- 연세대학교 물리학과 (이학학사)
- 연세대학교 대학원 물리학과 (이학석사)
- University of Toronto, Physics (M.Sc.), 1992
- University of Toronto, Physics (Ph.D), 1997


경력 (Career)
- 1993.3~1996.2 : 독일 DESY ZEUS 실험 방문연구원  
- 1997.4~1999.2 : 일본 KEK BELLE 실험 Post-doc 
- 1999.4~2002.7 : 스위스 CERN ATLAS FCAL실험 Post-doc Research Associate 
- 2002.9~2004.8 : 서울대 자연대 물리학부 초빙 조교수 
- 2004.9~2006.2 : 서울대 BK21사업단 BK21연수연구원 
- 2003.3~2007.6 : 연세대 원주캠퍼스 교양교직 강사 
- 2006.3~2007.6 : 서울대 자연대 기초과학연구 선임연구원 
- 2007.7~2011.8: 전남대 물리학과 조교수

- 2011.9~2016.8: 전남대 물리학과 부교수

- 2016.1~2018.8: 우주소립자연구소 소장

- 2016.9~2018.8: 전남대 물리학과 교수 (학과장)

- 2019.1~현재: 광주지방방사능측정소장

- 2016.9~현재: 전남대 물리학과 교수

 

 

연구분야

고 에너지 실험 물리학은 입자충돌에서 비롯된 입자들의 구성요소, 물리적 성질, 기본구조, 상호작용, 생성원리 등에 대해 연구를 추구하는 학문으로 국/내외 여러 실험과의 공동연구 및 R&D를 수행하고 있다.

 

+ 주 실험

 - RENO (Reactor Experiment of Neutrino Oscillation)   

 - JSNS2 (Sterile Neutrino Search) 


+ 관심 연구분야 

  - (원전/가속기) 중성미자를 이용한 진동변환 상수 측정 및 비활성 중성미자 (sterile neutrino) 
  - B 메존 물리 (BELLE/BELLEII) 

 

+  홈페이지가기: 168.131.177.72

 

저서

 
- (예제로 배우고 개념 익히는) 잡동사니 역학상자 열기 (2017)

- 입자충돌의 물리학 (2014), 2015년 대한민국학술원 우수 학술도서상   

- 현대 물리학 속 입자물리 (2013)

연구실적 (주저자)

1. K. K. Joo et al., "Construction experimental devices for half-ton synthesis of gadolinium-loaded liquid scintillator and its performance", Rev. Sci. Inst. 89, 043302 (2018)

2. K. K. Joo, "New results from RENO & prospects with RENO-50", Journal of Physics - conference series, 888, 012012 (2017)

3. K. K. Joo, “RENO & RENO-50”, XVII International Workshop on Neutrino Factories and Future Neutrino Facilities (NuFact15), eConf Proceedings, eConf C1508102 (2016)  

4. K. K. Joo, “Neutrinos that go bump in the night”, IOP Physics World, July 8 (2016)

5. K. K. Joo et al., "Development and Mass Production of a Mixture of LAB- and DIN-based Gadolinium-loaded Liquid Scintillator for the NEOS Short-baseline Neutrino Experiment", J Radioanal Nucl Chem, DOI 10.1007/s10967-016-4826-1 (2016)

6. K. K. Joo et al., "Pulse shape discrimination capability of metal-loaded organic liquid scintillators for a short baseline reactor neutrino experiment", Phys. Scr. 90, 055302 (2015)

7. K. K. Joo et al., "Development of (Gd, 6^ ^{6} Li)-loaded organic liquid scintillators for reactor neutrino detection",JKPS, 66, 5, p768~773 (2015)

8. K.K. Joo et al., "Development of a Liquid Scintillator Using Water for a Next Generation Neutrino Experiment", Advances in High Energy Physics, Vol 2014, ID 327184 (2014)

9. K.K. Joo et al., "Measurement of the Optical and the Physical Properties of a Liquid Scintillator Containing Water at Different Times and under Different Environmental Conditions", JKPS, 65, 7, p995~1000 (2014)

10. K.K. Joo et al, "Study on the Neutrino Oscillation with a Next Generation Medium-baseline Reactor Experiment",Advances in High Energy Physics, Vol2014, ID320287 (2014)

11. K.K. Joo et al, "Development of a Gadolinium-loaded Liquid Scintillator for the Hanaro Short Baseline Prototype Detector", JKPS, 64, 3, p377~381 (2014)

12. K.K. Joo, "Past and Present Status in the Development of Liquid Scintillators for Neutrino Experiments", JKPS, 63, 8, p1489~1496 (2013)

13. K.K. Joo et al., "Feasibility Study of a Gadolinium-loaded DIN-based Liquid Scintillator", JKPS, 63, 5, p970~974 (2013)

14. K.K. Joo et al., "Production and optical properties of Gd-loaded scintillator for the RENO neutrino detector", NIM-A 707 p45-53 (2013)

15. K.K. Joo et al., "Development of a Gadolinium-loaded LAB-based Aqueous Scintillstor for Neutrino Detection", JKPS, 62, 1, pp22-25 (2013)

16. K.K. Joo et al., "Investigation of the Physical and the Optical Properties of Various Base Solvents for the Liquid Scintillator in a Neutrino Detector", JKPS, 62, 1, pp26-33 (2013)

17. K.K. Joo et al., "Construction & Properties of Acrylic Vessels in the RENO Detector". NIM-A 686, p91 (2012)

18. K.K. Joo, "Status of the RENO Reactor Neutrino Experiment", Nucl. Phys. B (Proc. Suppl) 229-232, 97, (2012)

19. K.K. Joo et al., "Measurement of the refractive index of the LAB-based liquid scintillator and acrylic at RENO", Phys. Scr. 82, 065706, (2010)

20. K.K.Joo et al., "Development of a Spark Chamber by Using a Thyratron", JKPS, Vol 55, No 6, pp2372~2377, (2009)

21. K.K. Joo et al., "Development of a Front End Board for a Plastic Scintillation Detector", JKPS, Vol 55, No 2, pp419~423, (2009)

22. T. Aaltonen et al., "Forward-Backward Asymmetry in Top Quark Production in ppbar Collisions at sqrt{s}=1.96 TeV", Phys.Rev.Lett.101:202001 (2008)

23. K.K. Joo, "Progress report on RENO", Nucl.Phys.Proc.Suppl.168,125-127 (2007)  

대표 발표 및 학술대회 (invited talk)

+ “Current Status of RENO”, Japan Physical Society, Osaka, Japan, 2008-03-23

+ “RENO, Fermi-lab, Journal Club, Chicago, USA, 2008-04-24

+ “Gd-loaded Liquid Scintillator in the Reactor Neutrino Experiment", XXIX Physics in Collision, Kobe, Japan, 2009-09-01

+ "Status of the RENO Reactor Neutrino Experiment", XXIV Neutrino 2010, Athens, Greece, 2010-06-14

+ “Status of the RENO Reactor Neutrino Experiment”, The University of Chicago, Hep Seminar, Chicago, USA, 2011-02-14

+ “Status of the RENO Reactor Neutrino Experiment”, Fermi-lab, Research Techniques seminar, Chicago, USA, 2011-02-15

+ “RENO”, 6th Low Energy Neutrino Physics, (LowNu2011), Seoul National University, Seoul, Korea, 2011-11-09

+ “Current Status of RENO”, Yongpyong 2012 Winter Conference on Particle Physics, Greenpia, Yongpyong, 2012-02-21

+ "Results from RENO and the Future Prospect with RENO-50", ICRR, Kashiwa, Tokyo university, Japan, 2013-03-15

+ "A New Result of Theta_13 from RENO & a Future Project RENO-50", NANPino-2013, Valday, Russia, 2013-06-24

+ "RENO-50", APCTP, HaPhy 3th workshop. Rare Isotopes and Nuclear Astrophysics with Related Topics (RIaNA) Workshop, Pohang, Korea, 2013-09-26

+ "Neutrino Program in Korea", Tokyo University, IPMU, Kashiwa campus, 2013-11-11

+ “RENO & RENO-50", NuFact2015, XVII International Workshop on Neutrino Factories and Future Neutrino Facilities, Rio De Janeiro, Brazil, 2015-08-10

+ “RENO/RENO-50 Liquid Scintillator”, JUNO Liquid Scintillator Workshop, Phhajarvi, Finland, 2015-10-19

+ “RENO”, Lake Louise Winter Institute, Calgary, Canada, 2016-02-07

+ “Reactor Neutrino”, Japan Physical Society, Gakuin University, Tohoku, Japan, 2016.03.19.

+ "Results from RENO & Prospects with RENO-50", The XXVII International Conference on Neutrino Physics and Astrophysics (Neutrino 2016), Imperial College London, London, 2016-07-04

+ "Results from RENO & Prospects with RENO-50", XVIII International Workshop on Neutrino Factories and Future Neutrino Facilities (NuFact2016), Quy Nhon, Vietnam, 2016-08-21

+ "New Results from RENO", 6th Symposium on Neutrinos & Dark Matter on Nuclear Physics 2018 (NDM2018), IBS, Deajeon, 2018/07/02, Korea   

대표 강연 및 콜로퀴엄

1. 조선대, 과학문화초대석, 대중강연, "유령입자, 중성미자를 찾아서", 2018-05-16

2. 연세대 천문우주학과, "중성미자 진동변환", 콜로퀴엄, 2017-3-10

3. 경북대, "유령입자, 중성미자를 찾아서", 콜로퀴엄, 2016-10-13

4. 성균관대, "Neutrino Oscillation Measurement", 2016년 Summer School, 2016-07-26

5. 연세대, "Reactor Neutrino Oscillation", Yonsei BK21+ Seminar, 2015-07-22  

6. 연세대, "A Theta_{13} Result from RENO & the Future Project with RENO-50", 세미나, 2013-10-31

7. 중앙대, "유령입자, 중성미자를 찾아서", 콜로퀴엄, 2012-04-05

8. 연세대, "Neutrino", 콜로퀴엄, 2011-11-30

9. KISTI, "RENO Reactor Neutrino Experiment", 세미나, 2011-05-04

10. 성균관대, "Status of the RENO Reactor Neutrino Experiment", 콜로퀴엄, 2011-04-27

11. 전남대, "유령입자, 중성미자를 찾아서", Focus on Science, 공개 강연, 2010-04-27

12. 서울대, “Neutrino Mass Hierarchy by Using Reactor Neutrino at an Intermediate Baseline”, 저널클럽, 2010-02-09

13. 광주역, "우주생성신비 밝힐 작지만 큰 도전", 금요과학터치, 대중강연, 2008-03-28

14. 전남대, "국내 영광 원전 중성미자 진동실험", 콜로퀴엄, 2007-09-20

 

학술등재지 (주저자)
1. Jung Sik PARK, Soo Bong KIM and Jae Seung LEE, Byoung Chan KIM, Sun Hee KIM and Kyung Kwang JOO, "Feasibility Study of a Liquid Scintillator Using Domestically Produced Linear Alkyl Benzene (LAB)", New Physics: Sae Mulli 58, p62-67 (2009)
2. Byoung Chan KIM and Kyung Kwang JOO, "Status , and Prospect of a Reactor Neutrino Experiment for Measuring the Oscillation Parameter θ13", New Physics: Sae Mulli 59, p154-159 (2009)
3. Byoung Chan KIM, Kyung Kwang JOO, "Feasibility Study on the Optical Properties of the RENO Detector and a Mock-up Using a Monte Carlo Simulation", New Physics: Sae Mulli 60, p823-826 (2010)
4. In Sung YEO, Kyung Kwang JOO, "Study on the Optical Properties of Acrylic Used in the RENO Experiment", New Physics: Sae Mulli 60, p897-900 (2010)
5. In Sung YEO, Kyung Kwang JOO, "Study on the Optical Properties of a Linear Alkyl Benzene-based Liquid Scintillator in the RENO", New Physics: Sae Mulli 61, p739-743 (2011)
6. Byoung Chan KIM, Seung Won SEO, Kyung Kwang JOO, "Measurement of the Density of Liquid Scintillator Solvents for Neutrino Experiments", New Physics: Sae Mulli 61, p759-762 (2011)
7. Ba Ro KIM, Kyung Kwang JOO, "Study on the Long Baseline Neutrino Oscillation Phenomena by Using GLoBES"New Physics: Sae Mulli 61, p876-879 (2011)
8. Chang-Dong SHIN, Jee-Seung JANG, "Study on the Measurement of the Detection Efficiency at the RENO Detector", New Physics: Sae Mulli 62, p979-983  (2012)
9. Sun Heang SO, Kyung Kwang JOO, "Measurement of the Optical Parameters for Long-term Stability in a Gd-loaded LAB-based Liquid Scintillator", New Physics: Sae Mulli 62, p963-967 (2012)
10. Ba Ro KIM, Kyung Kwang JOO, "Study on Data Acquistion and Reduction for the Yonggwang Reactor Neutrino Experiment", New Physics: Sae Mulli 62, p968-973 (2012)
11. In Sung YEO, Kyung Kwang JOO, "Study of Neutron Capture Events Produced by Cosmic Muons in the RENO", New Physics: Sae Mulli 62, p974-978 (2012)
12. Chang Dong SHIN, Kyung Kwang JOO
"Study of the Positron Energy Spectrum from Inverse Beta Decay at RENO"
New Physics: Sae Mulli 63, p1011-1014 (2013)
13. Sook Hyung SONG, Kyung Kwang JOO, "Measurements of the Water Content and the Concentration of 0.5% Gd in Gd-loaded LAB-based Liquid Scintillators", New Physics: Sae Mulli 63, p1015-1018 (2013)
14. Sun Heang SO, Kyung Kwang JOO, "Measurement Study of Metal Melting Liquid Scintillator Concentration", New Physics: Sae Mulli 63, p1019-1022 (2013)
15. Ba Ro KIM, Kyung Kwang JOO, "Data Acquisition and Processing at the Yonggwang Reactor Neutrino Experiment", New Physics: Sae Mulli 63, p1023-1026 (2013)
16. Sun Heang SO, Kyung Kwang JOO, "Measurement of the Optical and the Physical Parameters in a LAB-based Liquid Scintillator for a Reactor Neutrino Experiment", New Physics: Sae Mulli 64, p811-814 (2014)
17. In Sung YEO, Kyung Kwang JOO, "Study of the Monte Carlo Simulation Environment by Using Radioactive Sources in the RENO", New Physics: Sae Mulli 64, p912-916 (2014)
18. Chang Dong SHIN, Kyung Kwang JOO, "Measurement of the Neutron Capture Time on Hydrogen at the RENO", New Physics: Sae Mulli 65, p972-975 (2015)
19. Ba Ro KIM, Kyung Kwang JOO, "Mass Production of a Liquid Scintillator for the NEOS Experiment", New Physics: Sae Mulli 65, p1081-1085 (2015)
20. Chang Dong SHIN, Kyung Kwang JOO, "Study of Event Vertex Reconstruction due to Changes in the Properties of the Liquid Scintillator Used at the RENO", New Physics: Sae Mulli 67, p838-841 (2017)
21. Young Seo PARK, Seung Chan KIM, Kyung Kwang JOO, "Measurement of the Attenuation Length of a Liquid Scintillator for the Detection of Reactor Neutrinos", New Physics: Sae Mulli 67, p842-845 (2017)
22. Ji Young CHOI, Kyung Kwang JOO, "A Simulation of High Energy Physics Software Related to Dark Photons", New Phys.: Sae Mulli 68, p812-818 (2018)