Welcome to Experimental High Energy Physics (EHEP) LAB
Introduction
- Why "High" energy?
In order to "see" matter at small distances, one needs to "microscope" with high resolving power. Accelerator is
one of excellent experimental tools invented in modern science.
- What is high energy physics?
High energy - because looking at small distances , fundamental constituents(=basic constituents of matter), basic interaction(=forces between the constituents).
- Questions addressed include:
- What is the "Standard Model?"
- Why do we believe it is correct?
- Is there anything wrong with it?
- What next?
- In a nutshell, a theorist would be tempted to say "fundamental symmetries", but we infer these from constituents and interactions seen experimentally.
Members
- (2022/07 present)
- Professor Kyung Kwang Joo
- Post-doc Research Associate
- Dr. Sang Yong Kim: RENO/Sterile neutrino
- Dr. Hyun Ki Lee: Sterile neutrino
- Ph.D student
- Kim, Na Ri (±è³ª¸®): À̹Ì¡ºÐ¼®
- Master student
- Ji Won Choi (ÃÖÁö¿ø), 3Çбâ
- Hyun Woo Park (¹ÚÇö¿ì), 1Çбâ
- Undergraduate RA for R&D
- Jae Ho Song (¼ÛÀçÈ£), 3Çгâ
- Jun Hyeok Kang (°ÁØÇõ), 3Çгâ
- (Áö³) ¿¬±¸¿ø
- Kim, Sun Hee (±è¼±Èñ) (¼®»ç, 2009): °í·Á´ë ¹°¸®Çаú ¹Ú»ç¼ö·á. Ãæ³²Áß °úÇм±»ý´Ô
- Kim, Byoung Chan (±èº´Âù) (¹Ú»ç¼ö·á, 2010)
- Song, Sook Hyung (¼Û¼÷Çü) (¼®»ç, 2015/02): ÇѼö¿ø (¿ïÁø) Ãë¾÷
- Kim, Ba Ro (±è¹Ù·Î) (¼®»ç, 2013. ¹Ú»ç¼ö·á)
- So, Sun Heang (¼Ò¼±Çà) (¼®»ç, 2015)
- 2014-04, 2014 ¿©¼º¿ì¼ö´ëÇпø»ó, Çѱ¹¹°¸®ÇÐȸ (2014)
- Yeo, In Sung (¿©Àμº) (¹Ú»ç, 2017/02), µ¿½Å´ë °í¿¡³ÊÁö¹°¸®¿¬±¸¼Ò
- 2014-11, »õ¹°¸®ÃÖ´Ù³í¹®°ÔÀç»ó, Çѱ¹¹°¸®ÇÐȸ (2014)
- Kim, Seung Chan (±è½ÂÂù) (¼®»ç, 2017/02) GIST³» ±â¾÷ ¿¬±¸¿ø
- Shin, Chang Dong (½Å⵿) (¹Ú»ç, 2018/08), ÀϺ» JSNS2 ½ÇÇè Æ÷½ºÆ®´Ú (2022.07 ~ )
- Park, Young Seo (¹Ú¿µ¼) (¼®»ç, 2019/08), KINS ¼¿ï Áö¹æ ȯ°æ¹æ»ç´É ÃøÁ¤¼Ò (ÇѾç´ë, Àü¹®ÃøÁ¤¿ä¿ø)
- Atif Zohaib (Master, 2020/02), GIST ÁøÇÐ
- Kim, Byoung Chan (±èº´Âù) (¹Ú»ç, 2021/08), ¿ø±¤º¸°Ç´ëÇб³ ¹æ»ç¼±°ú ÀüÀÓ °ÀÇ ±³¼ö
- Choi, Ji Young (ÃÖÁö¿µ) (¹Ú»ç, 2021/08). ¼¿µ´ë Æ÷½ºÆ®´Ú
- ÇÐÀ§³í¹®
- 2021³â
- Develoment of new liquid scintillator based on alcohol and its medical application using electron beams ±èº´Âù (¹Ú»ç)
- Imaging analysis of alcohol-based liquid scintillator and simulation of itereaction between particles in high energy physics perspective ÃÖÁö¿µ (¹Ú»ç)
- 2020³â
- Monte Carlo Simulation of Gamma Backgroud in JSNS2 Detector, Atif Zohaib (Master)
- 2019³â
- ¿øÀüÁß¼º¹ÌÀÚ °ËÃâÀ» À§ÇÑ °¡µ¹¸®´½ÀÌ ¿ëÇØµÈ ¾×ü¼¶±¤°ËÃâ¿ë¾×ÀÇ Á¦Á¶ ¹× ¹°¸® ±¤ÇÐÀû Ư¼º Á¶»ç, ¹Ú¿µ¼ (¼®»ç)
- 2018³â
- Measurement of Neutrino Mixing Angle Theta13 using RENO Reactor Neutrino Events with Neutron Capture on Hydogen
(RENO ½ÇÇè¿¡¼ Áß¼ºÀÚ°¡ ¼ö¼Ò¿¡ Æ÷ȹµÈ °æ¿ìÀÇ ¿øÀÚ·Î Áß¼º¹ÌÀÚ¸¦ ÀÌ¿ëÇÑ Áøµ¿º¯È¯»ó¼ö Theta13 ÃøÁ¤) ½Å⵿ (¹Ú»ç)
- 2017³â
- ¿øÀü Áß¼º¹ÌÀÚ °ËÃâÀ» À§ÇÑ ¾×ü¼¶±¤°ËÃâ¿ë¾× ¿¬±¸
(Development of Liquid Scintillators for a Reactor Neutrino Detection) ±è½ÂÂù (¼®»ç)
- Search for Sterile Neutrinos at RENO
(¸£³ë½ÇÇè¿¡¼ sterile Áß¼º¹ÌÀÚ Å½»ö ¿¬±¸) ¿©Àμº (¹Ú»ç)
- 2015³â
- ¸ÞÅ»ÀÌ ¿ëÇØµÈ ¾×ü ¼¶±¤ °ËÃâ ¿ë¾× ¿¬±¸
(Study on Metal-loaded Liquid Scintillator) ¼Ò¼±Çà (¼®»ç)
- ±Ý¼ÓÀÌ ¿ëÇØ µÈ ¾×ü¼¶±¤°ËÃâ¿ë¾×ÀÇ ¹°¸® ±¤ÇÐÀû Ư¼º ¿¬±¸
(Feasibility study on parameters of Metal-loaded liquid scintillator) ¼Û¼÷Çü (¼®»ç)
- 2013³â
- CDF ½ÇÇè¿¡¼ Dilepton ä³ÎÀ» ÀÌ¿ëÇÑ Å¾-¹ÝžÄõÅ© Áú·®Â÷ ÃøÁ¤°ú RENO ½ÇÇè¿¡¼ Áß¼º¹ÌÀÚ Áøµ¿º¯È¯»ó¼ö ÃøÁ¤À» À§ÇÑ MCºÐ¼® ¿¬±¸
(Measurement of Mass Difference between Top and Anti-Top Quark in the Dilepton Channel at CDF and Study on Neutrino Oscillation Parameter with MC in the RENO) ½Å⵿ (¼®»ç)
- ¿µ±¤ ¿øÀÚ·Î ½ÇÇè¿¡¼ÀÇ Áß¼º¹ÌÀÚ Áøµ¿º¯È¯»ó¼ö Theta_13 µ¥ÀÌÅÍ È¹µæ ¹× ºÐ¼® ¿¬±¸
(A Study on Data Processing and Reduction at RENO) ±è¹Ù·Î (¼®»ç)
- 2012³â
- RENO ½ÇÇè¿¡¼ ¾×ü¼¶±¤°ËÃâ¿ë¾×ÀÇ ¹°¸® ±¤ÇÐÀû Ư¼º ¿¬±¸
(Study on the Physical and Optical Properties of Liquid Scintillator in the RENO) ¿©Àμº (¼®»ç)
- 2011³â
- ½´ÆÛ-Ä«¹Ì¿Àĵ¥ ¹° ü·»ÄÚÇÁ °ËÃâ±â¿¡¼ ·¹ÀÌÀú ±¤ »ê¶õ¿¬±¸
(Laser scattering at the water cherenkov detector of the Super-Kamiokande) Á¶¼ºÈÆ (¼®»ç)
- 2010³â
- RENO ½ÇÇè¿¡¼ Geant4¸¦ ±â¹ÝÀ¸·Î ÇÑ Ãà¼ÒÇü °ËÃâ±â¿Í RENO °ËÃâ±âÀÇ ¸óÅ×Ä«¸¦·Î ½Ã¹Ä·¹ÀÌ¼Ç ºñ±³ ºÐ¼® ¿¬±¸
(RENO experiment based on the Geant4 with a Mock-up detector & RENO detector comparative analysis of the Monte Carlo simulation study.) ±èº´Âù (¼®»ç)
- 2009³â
- GdÀÌ ¿ëÇØµÈ ¾×ü ¼¶±¤ °ËÃâ ¿ë¾× °³¹ß ¿¬±¸
(R&D of the Gd Loaded Liquid Scintillator) ±è¼±Èñ (¼®»ç)
(Student) Research Projects
- Reactor neutrino physics
- RENO (Reactor Experiment for Neutrino Oscillation)
- JSNS2 (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source )
- Former experiment: NEOS (NEutrino Oscillation at Short-baseline) experiment. Yonggwang Hanbit reactor neutrino physics
- Hadron physics
- Long-base line neutrino physics
(Student) Publication/Talks
- For (student) publications,
- BC Kim, SH Kim et al., "Feasibility Study of a Liquid Scintillator Using Domestically Produced Linear Alkyl Benzene (LAB)", KPS, 58, pp62 (2009)
- BC Kim et al., "Status and Prospect of a Reactor Neutrino Experiment for Measuring the Oscillation Parameter Theta_13", KPS, 59, pp154 (2009)
- BC Kim, "Feasibility Study on the Optical Properties of the RENO Detector and a Mock-up Using a Monte Carlo Simulation", KPS, 60, pp823 (2010)
- IS Yeo, "Study on the Optical Properties of Acrylic Used in the RENO Experiment", KPS, 60, pp897 (2010)
- IS Yeo et al., "Measurement of the refractive index of the LAB-based liquid scintillator and acrylic at RENO", Phys. Scr. 82, 065706, (2010)
- 2011-08-31, "RENO ½ÇÇè¿¡¼ ¼±Çü¾Ëųº¥Á¨ ±â¹Ý ¾×ü¼¶±¤°ËÃâ¿ë¾×ÀÇ ±¤ÇÐÀû Ư¼º ¿¬±¸", »õ¹°¸®, Vol61, 8, pp739, ¿©Àμº (2011)
- 2011-08-31, "Áß¼º¹ÌÀÚ °ËÃâ±â¿¡ »ç¿ëµÉ ¾×ü¼¶±¤°ËÃâ¿ë¾×ÀÇ ¹Ðµµ ÃøÁ¤", »õ¹°¸®, Vol61, 8, pp759, ±èº´Âù, ¼½Â¿ø (2011)
- 2011-09-30, GLoBES¸¦ ÀÌ¿ëÇÑ Àå°Å¸® Áß¼º¹ÌÀÚ Áøµ¿º¯È¯ ¿¬±¸, »õ¹°¸®, Vol61, 9, pp876~879, ±è¹Ù·Î (2011)
- 2012-06, IS Yeo, BR Kim, BC Kim et al., "Observation of Reactor Electron Antineutrino Disappearance in the RENO Experiment", Phys. Rev. Lett. 108, 191802 (2012)
- IS Yeo, BR Kim, BC Kim et al., "Construction & Properties of Acrylic Vessels in the RENO Detector", NIM-A, vol 686, pp91-99 (2012)
- ¿©Àμº, RENO ½ÇÇè¿¡¼ cosmic ¹Â¿Â¿¡ ÀÇÇØ »ý¼ºµÈ Áß¼ºÀÚ Æ÷ȹ ¿¬±¸, »õ¹°¸® 62 9 p974 (2012)
- ±è¹Ù·Î, ¿µ±¤¿øÀÚ·Î Áß¼º¹ÌÀÚ ½ÇÇè¿¡¼ µ¥ÀÌÅÍ È¹µæ ¹× ºÐ¼® ¿¬±¸, »õ¹°¸® 62 9 p968 (2012)
- ½Å⵿, RENO °ËÃâ±âÀÇ °ËÃâÈ¿À² ÃøÁ¤ ¿¬±¸, »õ¹°¸® 62 9 p979 (2012)
- ¼Ò¼±Çà, °¡µ¹¸®´½ÀÌ ¿ëÇØµÈ ¼±Çü¾Ëųº¥Á¨ ±â¹Ý ¾×ü¼¶±¤°ËÃâ¿ë¾×ÀÇ Àå±âÀûÀÎ ¹°¸® ±¤ÇÐÀû Ư¼º ¿¬±¸, »õ¹°¸® 62 9 p963 (2012)
- I. S. Yeo et al., "Development of a Gadolinium-loaded LAB-based Aqueous Scintillstor for Neutrino Detection", JKPS, 62, 1, pp22-25 (2013)
- S. H. So 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)
- B. R. Kim et al., "Production and optical properties of Gd-loaded scintillator for the RENO neutrino detector", NIM-A 707 p45-53 (2013)
- S. H. Song et al., Feasibility study of a Gadolinium-loaded DIN-based Liquid Scintillator, JKPS, 63, 5 p970~974 (2013)
- S. H. Song, Measurement of the Water Content and the Concentration of 0.5% Gd in Gd-loaded LAB-based Liquid Scintillator, New Physics, 63, 9, p1015~1018 (2013)
- S. H. So, Measurement Study of Metal Melting Liquid Scintillator Concentration, New Physics, 63, 9, p1019~1022 (2013)
- C. D. Shin, Study of the Positrron Energy Spectrum from Inverse Beta Decay at RENO, New Physics, 63, 9, p1011~1014 (2013)
- B. R. Kim, Data Acquisition and Processing at the Yonggwang Reactor Neutrino Experiment, New Physics, 63, 9, p1023~1026 (2013)
- I. S. Yeo et al, "Development of a Gadolinium-loaded Liquid Scintillator for the Hanaro Short Baseline Prototype Detector", JKPS, 64, 3, p377~381 (2014)
- C. D. Shin "Study on the Neutrino Oscillation with a Next Generation Medium-baseline Reactor Experiment", Advances in High Energy Physics, Vol 2014, ID 320287 (2014)
- S. H. So, "Measurement of the optical and physical parameters in a LAB-based liquid scintillator for a reactor neutrino experiment, New Physics, Vol 64, No 8, p811~814 (2014)
- I. S. Yeo et al., "Study of the Monte Carlo Simulation Environment by Using Radioactive Sources in the RENO", New Physics, Vol 64, No 9, p912~916 (2014)
- S. C. Kim et al., "Measurement of the Optical and the Physical Properties of a Liquid Scintillator Containing Water at Different Times and under Different Environment Conditions", JKPS, 65, 7, p995~1000 (2014)
- B. K. Kim et al., "Development of a Liquid Scintillator Using Water for a Next Generation Neutrino Experiment", Advances in High Energy Physics, Vo l2014, ID 327184 (2014)
- B. R. Kim et al., "Development of (Gd, 6Li)-loaded Organic Liquid Scintillators for Reactor Neutrino Detection", JKPS, Vol 66, 5, p768~773 (2015)
- B. R. Kim et al., "Pulse shape discrimination capability of metal-loaded organic liquid scintillators for a short-baseline reactor neutrino experiment", Phys. Scr. 90, 055302 (2015)
- B. R. Kim 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)
- Y. S. Park et al., "Measurement of the Attenuation Length of a Liquid Scintillator for the Detection of Reactor Neutrinos", New Physics, 67, 7, p842 (2017)
- C. D. Shin et al., "Study of Event Vertex Reconstruction due to Changes in the Properties of the Liquid Scintillator Used at the RENO", New Physics, 67, 7, p838 (2017)
- Y. S. Park et al., "Construction experimental devices for half-ton synthesis of gadolinium-loaded liquid scintillator and its performance", Rev. Sci. Inst. 89, 043302 (2018)
- J. Y. Choi et al., "A Simulation of High Energy Physics Software Related to Dark Photons", New Physics, Vol.68, No 7, pp812~818, July (2018)
- C. D. Shin et al., "
Research on Reactor Neutrino Event Selection by Using the Machine Learning Technique", New Phys.Sae Mulli 69 no.8, 813-817 (2019)
- J. H. Seo et al., "Study on the Resolution Change of Reconstructed Vertex due to the Operating Status of the PMTs in Neutrino Detector" New Phys.Sae Mulli 69 no.9, 900-904 (2019)
- J. H. Seo et al., "Estimating Uncertainties in the Reactor Neutrino Directionality Using Liquid Scintillator with Monte Carlo Simulation", JKPS, 76,2, p125 (2020)
- C. D. Shin et al., "Observation of reactor antineutrino disappearance using delayed neutron capture on hydrogen at RENO", JHEP 04, 029 (2020)
- J. H. Seo et al., "Search for reactor neutrino directionality using a LAB-based Gd-loaded liquid scintillation detector", NIMA 969, 164001 (2020)
- C. D. Shin et al., "Study on reactor neutrino directionality search utilizing vertex information reconstructed by PMT operating state in a liquid scintillator detector", IEEE Transactions on Nuclear Science, 67, 9, ISSN: 1558-1578 (2020)
- B. C. Kim et al.,"Development of an Alcohol-based Liquid Scintillator and its Application", New Physics:Sae Mulli, 71, 1, p21 (2021)
- B. C. Kim et al., "Range measurement and fluorscence imaging analysis using electron beams with new liquid scintillator based on alcohol", Rev. Sci. Instrum. 92, 014103 (2021)
- J. Y. Choi et al., "Photo image processing analysis of electron beam irradiation on a new liquid scintillator based on alcohol", Physica Scripta. 96, 4, 045305 (2021)
- B. C. Kim et al., "Feasibility Study of an Alcohol-Based Liquid Scintillation Detector and Its Application", Advances in High Energy Physics, Volume 2021, Article ID 6672655 (2021)
- B. C. Kim et al., "Range Measurement Using Electron Beams with Alcohol-based Liquid Scintillator", New Physics: Sae Mulli, 71, 7, p593 (2021)
- J. W. Choi et al., "Feasibility study of a portable and fast spatial dosimeter using and alcohol-based liquid scintillator and a digital camera", JKPS, 79, pp810-817 (2021)
- J. W. Choi et al., "Estimation of Fluor Emission Spectrum through Digital Photo Image Analysis with a Water-Based Liquid Scintillator", MDPI-Sensors, 21, 8483 (2021)
- J. W. Choi et al., "Development of water-based liquid scintillator based on hydrophilic-lipophilic balance index", Physica Scripta, 97, 4, 045304 (2022)
- J. W. Choi et al., "Pixel image analysis and its application with an alcohol-based liquid scintillator for particle therapy", MDPI-sensors-1751725 (2022)
- Others, available on request
- For (student's) talks/posters,
- 2008
- 2008-12-23, KPS-KJ session @CNU, Byung Chan Kim, Sun Hee Kim
- 2009
- 2009-02-18, BK21 Workshop @Muju, BC Kim
- XXIX PHYSICS IN COLLISION - Kobe, Japan, August 30 - September 2, 2009, BC Kim
- "Measurement of Refractive Index of Liquid Scintillator and Acrylic at RENO", Korean Physical Society, Changwon, October 22-23, 2009, JH Jang & JE Lee
- 2009-12-17, KPS-KJ session @Mokpo University,Sun Hee Kim (oral presentation)
- 2009-12-17, KPS-KJ session @Mokpo University, In Sung Yeo, Hee Ryun Jo, Lee Ji Eun Lee(poster)
- 2010
- 2010-06-28/30, The Joint Korea-France Collider Physics Workshop, KNU, Chang Dong Sin (talk in English)
- 2010-08-23/31, II International Neutrino Summer School 2010, Yokohama/Tokai, Japan, BC Kim (poster)
- 2010-10-08, Korea-CDF Meeting at CBNU, Chang Dong Sin (talk)
- 2010-10-22, 2010 Çѱ¹¹°¸®ÇÐȸ Ãß°è Çмú¹ßÇ¥´ëȸ, Æòâ
- 2010-10-22, KPS @Pyeongchang, IS Yeo(2 posters), "Measurement of optical parameters in the RENO liquid scintillators", "Measurement of the refractive index of LAB-based liquid scintillator and acrylic at RENO", ¿ì¼ö»ó ¼ö»ó
- 2010-10-22/23, KPS @Pyeongchang, SW Seo(2 posters), "Density measurement of liquid scintillator at RENO", ¿ì¼ö»ó ¼ö»ó
- 2010-10-22/23, KPS @Pyeongchang, C.D. Sin(poster), ¿ì¼ö»ó ¼ö»ó
- 2010-12-13/16, 11th International Workshop on Next Generation Nucleon Decay & Neutrino Detectors, Toyama, Japan, BC Kim (poster)
- 2010-12-27, Çѱ¹¹°¸®ÇÐȸ ±¤ÁÖÀü³²ÁöºÎ Á¤±â ÃÑȸ ¹× ³í¹® ¹ßǥȸ, Á¶¼±´ë, ÀÚ¿¬°úÇдë 5Ãþ ¼¼¹Ì³ª½Ç
- ¿©Àμº, "Measurement of Optical Parameters in the RENO Liquid Scintillator", ±¸µÎ¹ßÇ¥
- ±èº´Âù, "RENO: Reactor Experiment for Neutrino Oscillation at Yonggwang", poster
- ½Å⵿, "Calibration of CMX Drift Velocity at CDF", poster
- ±è¹Ù·Î, "Study on the Neutrino Oscillation Using GloBes", poster
- ¼½Â¿ø, "Density Measurement of Liquid Scintillator for Reactor Neutrino Experiment", poster
- 2011
- 2011³â 4¿ù º½ Ãá°è Çѱ¹¹°¸®ÇÐȸ, ´ëÀü
- 2011-04-14(¸ñ), Çѱ¹¹°¸®ÇÐȸ, Leak test of RENO acrylic vessels, ¿©Àμº (poster)
- 2011-04-14(¸ñ), Çѱ¹¹°¸®ÇÐȸ, Measurement of top and anti-top quark mass difference in the dilepton channel, ½Å⵿ (poster)
- 2011-05-27(±Ý), Korea-CDF Collaboration Meeting, °æºÏ´ë, Measurement of top and anti-top quark mass difference in the dilepton channel, ½Å⵿, ±¸µÎ¹ßÇ¥
- 2011-08-26(±Ý), 15th RENO collaboration meeting, Inspection on LS of ND/FD, ¼Ò¼±Çà, ±¸µÎ¹ßÇ¥
- 2011-10-21(±Ý), Çѱ¹¹°¸®ÇÐȸ, ºÎ»ê
- ¼Ò¼±Çà, ±èºÀ°Ç, ¿©Àμº: Feasibility study on the optical properties of DIN-based liquid scintillator (poster)
- ½Å⵿: Measurement of top and anti-top quark mass difference in the dilepton channel (poster)
- À±¼Ö/À̰¡¿¬/±èºÀ°Ç/¼Ò¼±Çà: ÇкλýÀÛǰ¹ßǥȸ
- 2011-12-16(±Ý), Çѱ¹¹°¸®ÇÐȸ ±¤ÁÖÀü³²ÁöºÎ Á¤±â ÃÑȸ ¹× ³í¹® ¹ßǥȸ, Àü³²´ë
- ¿©Àμº: Measurement of optical properties of liquid scintillator (±¸µÎ¹ßÇ¥)
- ±è¹Ù·Î, ¼Ò¼±Çà, ±èºÀ°Ç: (poster)
- ½Å⵿: Measurement of top and anti-top quark mass difference in the dilepton channel (poster)
- 2011-12-26(¿ù), 16th RENO collaboration meeting, ¼¿ï´ë, ±¸µÎ¹ßÇ¥
- Longterm stability test of liquid scintillator (¼Ò¼±Çà)
- Energy calibration using control samples in the data & Study of energy scale change (¿©Àμº)
- Data reduction for IBD events (±è¹Ù·Î)
- Measurement of optical properties of RENO liquids (¿©Àμº)
- 2012
- 2012-1-30(¿ù), BK workshop (¹«ÁÖ)
- ½Å⵿, Measurement of top and anti-top quark mass difference in the dilepton channel, ±¸µÎ¹ßÇ¥
- ±è¹Ù·Î, Data reduction in the RENO experiment, ±¸µÎ¹ßÇ¥
- 2012³â 4¿ù 25ÀÏ ~ 27ÀÏ, Çѱ¹¹°¸®ÇÐȸ, ´ëÀü ÄÁº¥¼Ç ¼¾ÅÍ, ´ëÀü
- ¿©Àμº: Study of neutron capture events produced by cosmic muons
- ±è¹Ù·Î: Data processing and reduction at RENO
- ½Å⵿: Study of detection efficiency at RENO
- ¼Ò¼±Çà: Stability measurement of Gd concentration at RENO
- 2012-5-26(±Ý), 17th RENO collaboration meeting, ¼¿ï´ë, ±¸µÎ¹ßÇ¥
- Longterm stability of GdLS purity (¼Ò¼±Çà)
- Monitoring detector performance using cosmic muon data (¿©Àμº)
- MC expected spectra of IBD prompt and delayed events (½Å⵿)
- Data reduction for IBD events (±è¹Ù·Î)
- 2012-06-03/09, Construction & Properties of Acrylic Vessels in the RENO Detector, Neutrino 2012, Kyoto, June 3-9, 2012, (poster), ¿©Àμº
- 18th RENO collaboration meeting, ±¸µÎ¹ßÇ¥, 2012³â 9¿ù 1ÀÏ (Åä), ¼¿ï´ë
- Longterm stability of GdLS purity (¼Ò¼±Çà)
- Gain calibration & photoelectron correction (¿©Àμº)
- Monitoring detector performance using cosmic muon data (¿©Àμº)
- Work on RENO program porting at KISTI (±è¹Ù·Î)
- MC expected spectra of IBD prompt and delayed events (½Å⵿)
- Data reduction for IBD events & bad runs (±è¹Ù·Î)
- 2012³â °¡À» Çѱ¹¹°¸®ÇÐȸ, Æòâ, 2012³â 10¿ù 24-26ÀÏ
- Stability of Gd concentration and optical property in the RENO liquid scintillator (¼Ò¼±Çà, ±¸µÎ¹ßÇ¥)
- Study of the RENO detector stability with cosmic muon induced events (¿©Àμº, poster)
- Measurement of detection efficiency at RENO (½Å⵿, poster)
- Data processing and reduction at RENO (±è¹Ù·Î, poster)
- Light yield measurements of various scintillation base solvents (±èºÀ°Ç, poster)
- Measurement of water contents in the Gd-loaded LAB based liquid scintillator (¼Û¼÷Çü, poster)
- Measurement of attenuation length of LAB-based solvent in the liquid scintillator (ÀÌÁöÀº, poster)
- 2013
- 19th RENO collaboration meeting, ±¸µÎ¹ßÇ¥, 2013³â 1¿ù 30ÀÏ (¼ö), ¼¿ï´ë
- Study of RENO-50 using GloBES (½Å⵿)
- Long term stability of GdLS purity (¼Û¼÷Çü/¼Ò¼±Çà)
- Gain calibration & monitoring pe change in the cosmic data (¿©Àμº)
- Energy calibration using radioactive sources (¿©Àμº)
- MC IBD prompt & delayed energy spectrum (½Å⵿)
- Status fo program running at KISTI & batch jobs (±è¹Ù·Î)
- 2013³â º½ Ãá°è Çѱ¹¹°¸®ÇÐȸ (Æ÷½ºÅ͹ßÇ¥), ´ëÀü, 2013³â 4¿ù 24ÀÏ~26ÀÏ
- Study of detection efficiency at RENO (¿©Àμº)
- Expected spectra of prompt signals from reactor neutrinos at RENO (½Å⵿)
- Data processing and reduction at RENO (±è¹Ù·Î)
- Long-term stability of 0.1% Gd-loaded LAB-based liquid scintillator at RENO (¼Ò¼±Çà)
- Feasibility study of a Gd-loaded DIN-based liquid scintillator (¼Û¼÷Çü, ±èºÀ°Ç, ±è½ÂÂù)
- Water-contents of 0.5% Gd-loaded LAB-based liquid scintillator with time (¼Û¼÷Çü)
- SBL 3rd collaboration meeting, "Production and measurements of prototype GdLS", ¼¼Á¾´ë, 2013³â 6¿ù 21ÀÏ (¿©Àμº)
- 2013³â °¡À» Ãß°è Çѱ¹¹°¸®ÇÐȸ (Æ÷½ºÅ͹ßÇ¥), â¿ø, 2013³â 10¿ù 30ÀÏ~ 11¿ù 01ÀÏ
- Production of liquid scintillator for SBL prototype detector (¿©Àμº)
- Study of reactor neutrino detection efficiency using neutron capture by hydrogen at RENO (½Å⵿)
- Development of water-based liquid scintillator (±è¹Ù·Î)
- Study of Gd-loaded liquid scintillator in the RENO detector (¼Ò¼±Çà)
- R&D study on 6Li-loaded liquid scintillator (¼Û¼÷Çü)
- 2013-12-17, Çѱ¹¹°¸®ÇÐȸ ±¤ÁÖÀü³²ÁöºÎ Á¤±â ÃÑȸ ¹× ³í¹® ¹ßǥȸ, Àü³²´ë, ±âÃʰúÇÐÆ¯¼ºÈ°ü 1Ãþ ¼¼¹Ì³ª½Ç
- 2014
- SBL 4th collaboration meeting, IBS center, ´ëÀü, 2014³â 3¿ù 25ÀÏ (È)
- Development of 6LiLS for SBL prototype (±è½ÂÂù)
- Measurement of various optical parameters of LSs for SBL prototype (¼Û¼÷Çü)
- 2014³â º½ Ãá°è Çѱ¹¹°¸®ÇÐȸ (Æ÷½ºÅ͹ßÇ¥), ´ëÀü, 2014³â 4¿ù 23ÀÏ~25ÀÏ
- Prototype deyector analysis at SBL experiment (±è¹Ù·Î)
- Feasibility study of water-based liquid scintillator for next generation experiment (¼Ò¼±Çà)
- Measurement on optical and physical parameters of various liquid scintillator (±è½ÂÂù)
- R&D study on 6Li-loaded liquid scintillation for short basedline neutrino experiment (¼Û¼÷Çü)
- Study on neutrino oscillation medium baseline using GloBES (½Å⵿)
- Neutrino 2014 (XXVI Neutrino 2014), June 2-7, Boston USA
- Mornitoring stability of Gd-loaded liquid scintillator at RENO (¼Ò¼±Çà)
- Development of Various Liquid Scintillators for the Next Genernation Neutrino Experiments (±è½ÂÂù)
- "Development of Gd-loaded liquid scintillator & water-based liquid scintillator", 20th Particles & Nuclei International Conference (PANIC 2014), Hamburg, Germany, 2014-08-25 (¼Ò¼±Çà)
- 22nd RENO collaboration meeting, ±¸µÎ¹ßÇ¥, 2014³â 8¿ù 29ÀÏ (±Ý), ¼¿ï´ë
- Temporal & spatial pe correction using IBD H-capture signal (½Å⵿)
- Detection efficiency for IBD (Gd and H captures) (½Å⵿)
- Detection efficiency and systematic uncertainties (½Å⵿)
- Stability of GdLS concentration & transmittance length (¼Ò¼±Çà)
- Status of sterile neutrino search (¿©Àμº)
- 2014³â °¡À» Ãß°è Çѱ¹¹°¸®ÇÐȸ (Æ÷½ºÅ͹ßÇ¥), ±¤ÁÖ, 2014³â 10¿ù 22ÀÏ~24ÀÏ
- Search for Sterile Neutrinos at RENO (¿©Àμº)
- Feasibility study on liquid scintillator using water for a neutrino detector (¼Ò¼±Çà)
- Development of metal-loaded liquid scintillators for neutrino experiment (±è½ÂÂù)
- Measurement of neutron capture time on hydrogen (½Å⵿)
- SBL collaboration meeting, ±âÃʰúÇÐÆ¯¼ºÈ°ü, Àü³²´ë, ±¤ÁÖ, 2014-11-21
- Measurement of optical & physical properties of SBL LS (±è½ÂÂù)
- 23rd RENO collaboration meeting, ±¸µÎ¹ßÇ¥, 2014³â 12¿ù 29ÀÏ (¿ù), ¼¿ï´ë
- Temporal & spatial pe correction using IBD H-capture signal (½Å⵿)
- Detection efficiency for IBD (Gd and H captures) (½Å⵿)
- Detection efficiency and systematic uncertainties (½Å⵿)
- Status of sterile neutrino search (¿©Àμº)
- 2014-12-23, Çѱ¹¹°¸®ÇÐȸ ±¤ÁÖÀü³²ÁöºÎ Á¤±â ÃÑȸ ¹× ³í¹® ¹ßǥȸ, Àü³²´ë, ±âÃʰúÇÐÆ¯¼ºÈ°ü 1Ãþ 103È£ ¼¼¹Ì³ª½Ç
- 2015
- 2015 º½ Çѱ¹¹°¸®ÇÐȸ, ´ëÀü ÄÁº¥¼¾¼¾ÅÍ, 2015/04/22 ~ 24
- Search for sterile neutrinos at RENO, (±¸µÎ¹ßÇ¥), ¿©Àμº
- Measurement of theta13 with neutron capture on hydrogen, (±¸µÎ¹ßÇ¥), ½Å⵿
- Mass production of GdLS for SBL experiment, (poster), ±è¹Ù·Î
- 2015 °¡À» Çѱ¹¹°¸®ÇÐȸ, °æÁÖ, 2015/10/21-23
- Search for sterile neutrinos at RENO (±¸µÎ¹ßÇ¥, ¿©Àμº)
- Measurement of theta13 with neutron capture on hydrogen (±¸µÎ¹ßÇ¥, ½Å⵿)
- Data Analisys for NEOS Experiment (±¸µÎ¹ßÇ¥, ±è¹Ù·Î)
- Development of oil-based liquid scintillators using various surfactants (Æ÷½ºÅÍ, ½Å⵿,ÃÖ±ÔÁ¤)
- Development of measurement device for liquid scintillator attenuation-length (Æ÷½ºÅÍ, ½Å⵿)
- 2016
- 2016 º½ ¹°¸®ÇÐȸ, 2016/04/20 ~ 22, ´ëÀü ÄÁº¥¼Ç¼¾ÅÍ
- Measurement of theta13 with neutron capture on hydrogen at RENO (±¸µÎ¹ßÇ¥, ½Å⵿)
- Search for sterile neutrinos at RENO (±¸µÎ¹ßÇ¥, ¿©Àμº)
- Measurement of liquid scintillator attenuation-length (Æ÷½ºÅÍ, ½Å⵿)
- Neutrino 2016, 2016/07/04 ~ 09, Imperial College London
- Measurement of theta13 using RENO reactor neutrino events with neutron capture on hydrogen (Æ÷½ºÅÍ, ½Å⵿)
- Search for sterile neutrinos at RENO (Æ÷½ºÅÍ, ¿©Àμº)
- ICHEP 2016, 2016/08/03 ~ 10, Sheraton Grand Chicago
- Measurement of theta13 using RENO reactor neutrino events with neutron capture on hydrogen (Æ÷½ºÅÍ, ½Å⵿)
- Search for sterile neutrinos at RENO (Æ÷½ºÅÍ, ¿©Àμº)
- 2016 °¡À» ¹°¸®ÇÐȸ, 2016/10/19 ~ 21, ±¤ÁÖ ±è´ëÁß ÄÁº¥¼Ç¼¾ÅÍ
- Energy dependent disappearance of reactor antineutrinos with neutron capture on hydrogen at RENO (±¸µÎ¹ßÇ¥, ½Å⵿)
- Search for sterile neutrinos at RENO (±¸µÎ¹ßÇ¥, ¿©Àμº)
- Measurement of the attenuation length of liquid scintillator for the neutrino experiment (Æ÷½ºÅÍ, ½Å⵿)
- R&D study of liquid purification using distillation for the next generation neutrino experiment (Æ÷½ºÅÍ, ±è½ÂÂù)
- 2017
- 2017 º½ ¹°¸®ÇÐȸ, 2017/04/19 ~ 21, ´ëÀü ÄÁº¥¼Ç¼¾ÅÍ
- Theta_13 measurement of using neutron captures on hydrogen at RENO (±¸µÎ¹ßÇ¥, ½Å⵿)
- Measurement of the attenuation length of liquid scintillator for the neutrino experiment (Æ÷½ºÅÍ, ¹Ú¿µ¼)
- K-Belle ȸÀÇ, 2017/08/16 ~17, ÁøÁÖ»çõ KB ÀÎÀç´Ï¿ò
- Study of B->6e at Belle (±¸µÎ¹ßÇ¥, ÃÖÁö¿µ/À念¹Î)
- 2017 °¡À» ¹°¸®ÇÐȸ, 2017/10/25 ~ 27, °æÁÖ È¹éÄÁº¥¼Ç¼¾ÅÍ
- Theta_13 measurement of using neutron captures on hydrogen at RENO (±¸µÎ¹ßÇ¥, ½Å⵿)
- Development of measuring devices for the attenuation length of LAB-based liquid scintillator (Æ÷½ºÅÍ, ¹Ú¿µ¼)
- Feasibility study of B meson decays to 6 leptons (Æ÷½ºÅÍ, ÃÖÁö¿µ, À念¹Î)
- 2018
- 2018 º½ ¹°¸®ÇÐȸ, 2018/04/25 ~ 27, ´ëÀü ÄÁº¥¼Ç¼¾ÅÍ (DCC)
- Theta_13 measurement of using neutron captures on hydrogen at RENO (±¸µÎ¹ßÇ¥, ½Å⵿)
- A brief guidance of HEP sftware simulation & installation related to dark photons (Æ÷½ºÅÍ, ÃÖÁö¿µ)
- Measurement of attenuation length for liquid scintillator (Æ÷½ºÅÍ, ¹Ú¿µ¼)
- Feasibility study of B meson decays to 6 leptons (Æ÷½ºÅÍ, ÃÖÁö¿µ, À念¹Î)
- Recent Results from RENO, HQL2018(Heavy Quarks and Lepton), Yamagata, Japan, 05/2018 (±¸µÎ¹ßÇ¥, ½Å⵿)
- Measurement of ¥è13 in the reactor neutrino events with neutron captures on Hydrogen at RENO, Neutrino2018, Heidelberg, Germany, 06/2018 (Æ÷½ºÅÍ, ½Å⵿)
- Measurement of ¥è13 in the reactor neutrino events with neutron captures on Hydrogen at RENO¡±, ICHEP2018, Korea, 07/2018 (Æ÷½ºÅÍ, ½Å⵿)
- 2018 °¡À» ¹°¸®ÇÐȸ, 2018/10/24 ~ 26, â¿ø ÄÁº¥¼Ç¼¾ÅÍ
- Theta_13 measurement of using neutron captures on hydrogen at RENO (±¸µÎ¹ßÇ¥, ½Å⵿)
- Measurement of attenuation length for liquid scintillator (Æ÷½ºÅÍ, ¹Ú¿µ¼)
- Feasibility study on neutrino directionality measurement with RENO (Æ÷½ºÅÍ, Atif, ¼ÁØÈÄ)
- 2019
- 2019 º½ ¹°¸®ÇÐȸ, 2019/04/24 ~ 26, ´ëÀü ÄÁº¥¼Ç¼¾ÅÍ (DCC)
- Theta_13 measurement of using 1500 days of neutron captures on hydrogen at RENO (±¸µÎ¹ßÇ¥, ½Å⵿)
- Improvement of measuring devices on attenuation length in the aqueous detector (Æ÷½ºÅÍ, ¹Ú¿µ¼)
- Feasibility study on the water-based liquid scintillator (Æ÷½ºÅÍ, ¹Ú¿µ¼)
- Study on the reactor neutrino directionality in the liquid scintillator detction (Æ÷½ºÅÍ, ¼ÁØÈÄ)
- 2019 °¡À» ¹°¸®ÇÐȸ, 2019/10/23 ~ 25, ±¤ÁÖ ±è´ëÁß ÄÁº¥¼Ç¼¾ÅÍ
- Updated theta_13 measurement using 1500 days of neutron captures on hydroden at RENO (±¸µÎ¹ßÇ¥, ½Å⵿)
- K-Belle ȸÀÇ, 2019/12/07, °æºÏ´ë
- Feasibility study on B meson decay to leptonic channel at Belle ¥± (±¸µÎ¹ßÇ¥: ¹ÚÇö¿ì)
- 2019 Çѱ¹¹°¸®ÇÐȸ ±¤ÁÖ Àü³²ÁöºÎ Çмú¹ßÇ¥´ëȸ, 2019/12/23, Á¶¼±´ë
- Feasibility study on B meson decay to leptonic channel at Belle ¥± (Æ÷½ºÅÍ: ¹ÚÇö¿ì)
- Monte Carlo Simulaton of Cosmic Gamma as Background in JSNS2 Detector (Æ÷½ºÅÍ: Zohaib Atif)
- 2020
- 2020 º½ ¹°¸®ÇÐȸ, 2020/07/13 ~ 15, ¿Â¶óÀÎÇÐȸ
- Study on muon simulation in neutrino detector using liquid scintillation (Æ÷½ºÅÍ, ÃÖÁö¿ø)
- ¿¡Åº¿Ã±â¹Ý ¾×ü¼¶±¤°ËÃâ¿ë¾× °³¹ß¿¬±¸ (Æ÷½ºÅÍ, ¹ÚÇöÁö)
- 2020 Çѱ¹¹°¸®ÇÐȸ ±¤ÁÖ Àü³²ÁöºÎ Çмú¹ßÇ¥´ëȸ, 2020/12/21, Á¶¼±´ë, ÀÚ¿¬°úÇдëÇÐ °ø°øº¸°Ç¾ÈÀü´ëÇÐ 1Ãþ ACE Lounge (1308È£) ¹× zoom È»óȸÀÇ
- ¾ËÄڿñâ¹ÝÀÇ »õ·Î¿î ¾×ü¼¶±¤¿ë¾×¿¡ ÀüÀÚºöÀÌ Á¶»çµÈ »çÁøÀÇ À̹ÌÁö ó¸® ¹× ºÐ¼® (Æ÷½ºÅÍ, ÃÖÁö¿µ)
- Development of an alcohol-based liquid scintillator and medical application (Æ÷½ºÅÍ, ±èº´Âù)
- Study on muon simulation in neutrino detector using liquid scintillator (Æ÷½ºÅÍ, ÃÖÁö¿ø)
- Feasibility study on recontruction of B0->4 mu at Belle ¥± experiment (Æ÷½ºÅÍ, ±èµ¿¿î)
- 2021
- 2021 º½ ¹°¸®ÇÐȸ, 2021/04/21 ~ 23, ºñ´ë¸é ¿Â¶óÀÎÇÐȸ
- Development of water-based liquid scintillators based on hydrophile-lipophile balance index (Æ÷½ºÅÍ, ¿ìÈñÁø)
- A study on color image analysis with liquid scintillator (Æ÷½ºÅÍ, ÃÖÁö¿ø)
- Image processing analysis for machine learning applications in particle experiments (Æ÷½ºÅÍ, ÃÖÁö¿µ)
- 2021 °¡À» ¹°¸®ÇÐȸ, 2021/10/20 ~ 22, Virtual conference (ºñ´ë¸é ¿Â¶óÀÎÇÐȸ)
- ÀÇÇй°¸®±â±âȰ¿ë ´Ù¾çÇÑ ¿ë¸Å¸¦ ±â¹ÝÀ¸·Î ÇÑ ¾×ü¼¶±¤°ËÃâ¿ë¾× Ư¼º ºñ±³ (Æ÷½ºÅÍ, ±èº´Âù)
- Application of inverse problem by using multi-band signal acquisition system with WbLS-like LS (Æ÷½ºÅÍ, ÃÖÁö¿µ)
- Photo image analysis of water-based liquid scintillator using CMOS sensors for the next generation neutrino detector (Æ÷½ºÅÍ, ÃÖÁö¿ø)
- 2021 Çѱ¹¹°¸®ÇÐȸ ±¤ÁÖ Àü³²ÁöºÎ Çмú¹ßÇ¥´ëȸ, 2021/12/22, ±¤ÁÖ°úÇбâ¼ú¿ø´ëÇÐ Cµ¿, ¹°¸®±¤°úÇаú 113È£, Zoom È»óȸÀÇ
- Photo image analysis of water-based liquid scintillator using CMOS sensors for the next generation neutrino detector (Æ÷½ºÅÍ, YouTube µ¿¿µ»ó, ÃÖÁö¿ø)
- ´Ù¾çÇÑ ¿ë¸Å¸¦ ±â¹ÝÀ¸·Î ÇÑ ¾×ü¼¶±¤°ËÃâ¿ë¾×ÀÇ CT À̹ÌÁö¿Í Geant4 ½Ã¹Ä·¹ÀÌ¼Ç Æ¯¼º ºñ±³ (Æ÷½ºÅÍ, YouTube µ¿¿µ»ó, ±èº´Âù)
- ¾ËÄÚ¿Ã ±â¹Ý ¾×ü½ÅÆ¿·¹ÀÌÅÍ¿¡¼ Çü±¤À̹ÌÁö ºÐ¼® ¹× ÀÔÀÚ»óÈ£ÀÛ¿ë ½Ã¹Ä·¹ÀÌ¼Ç (±¸µÎ¹ßÇ¥, ÃÖÁö¿µ)
- 2022
- 2022 º½ ¹°¸®ÇÐȸ, 2022/04/20 ~ 22, ºñ´ë¸é ¿Â¶óÀÎÇÐȸ
- Estimating various uncertainties in the Hue-wavelength relationship using a CMOS sensor with CFA-based digital images (Æ÷½ºÅÍ, ¹ÚÇö¿ì)
- Study on Hue-wavelength Relationship Uisng Digital Photo Image for Liquid Scintillator (Æ÷½ºÅÍ, ÃÖÁö¿ø)
-
Áß¼Ò±â¾÷ Ãë¾÷Çϱâ
- ´ë±â¾÷ Ãë¾÷Çϱâ (Available on request)
Useful Links
- Neutrino physics:
Double Chooz,
Daya Bay,
SNO,
T2K,
SK,
K2K,
MINOS,
OPERA,
MiniBooNE
- Hadron physics:
LHC,
ATLAS,
CMS,
D0
- e-p physics:
ZEUS,
H1
- B-physics:
BELLE,
BaBar
- etc:
ArXiv,
spires,
Review of Particle Properties,
Neutrino Industry
- ¿ìÁÖ¼Ò¸³ÀÚ¿¬±¸¼Ò (Institute for Universe and Elementary Particles)
If you have anything to say, please go to board (°Ô½ÃÆÇ¹Ù·Î°¡±â)
Any questions/opinions, please contact K.K. Joo (+82-62-530-3483, kkjoo@chonnam.ac.kr)
- Back to Department of Physics, Chonnam National University
Yongbong-ro 77 (Yongbong-dong), Puk-gu, Gwangju, Korea 61186
Last update: June 29, 2022