李世昌 / 兼任研究員

連絡資訊

P704

886-2-2789-6706

sclee [at] sinica.edu.tw

個人網頁

研究室網頁

學歷

美國普林斯頓大學物理博士

秘書

劉翠霞 / 886-2-2789-6777

tracy[at]phys.sinica.edu.tw

研究興趣

粒子物理
場論
非線性物理

獎項及殊榮

(1)	國際學術研究獎項	2013	世界科學院(TWAS)院士
(2)	國內學術研究獎項	2010-07	院士
(3)	其他國際學術研究獎項	2010	Enrico Fermi Award

經歷

美國紐約州立大學石溪分校理論物理研究所博士後
中研院物理所副研究員 (1983-1986) ，研究員 (1986-2010)，特聘研究員(2010-)
中研院物理所副所長 (1991-1996)
國科會自然處計畫審議人 (1990-1993)，諮議委員 (1988-1990，1994-1996)
IUPAP ICFA委員 (2006-2008)
費米實驗室CDF實驗台灣團隊計畫主持人 (1993-)
國際太空站AMS實驗台灣團隊計畫主持人 (1995-)
創立台灣微中子實驗 (1996-)
歐洲粒子物理中心ATLAS實驗台灣團隊計畫主持人 (1999-)
中華民國物理學會副會長 (2000-2001) ，會長(2002-2003)

學術著作

期刊論文

[1] M. Aguilar et al. AMS Collaboration, 2020, “Properties of Neon, Magnesium, and Silicon Primary Cosmic Rays Results from the Alpha Magnetic Spectrometer”, Physical Review Letters, 124, 211102. (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[2] ATLAS Collaboration, 2020, “Search BSM H(125)->emu lepton flavor violating decay and H(125)->ee”, Phys. Lett. B, 801, 1351487 (2020). (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[3] M. Aguilar et al. AMS Collaboration, 2019, “Properties of Cosmic Helium Isotopes Measured by the Alpha Magnetic Spectrometer”, Phys. Rev. Lett., 123, 181102 (2019). (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[4] M. Aguilar et al. AMS Collaboration, 2019, “Towards Understanding the Origin of Cosmic-Ray Electrons”, Phys. Rev. Lett., 122, 101101. (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[5] M. Aguilar et al. AMS Collaboration, 2019, “Towards Understanding the Origin of Cosmic-Ray Positrons”, Phys. Rev. Lett., 122, 041102 (2019). (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[6] ATLAS Collaboration, 2019, “ATLAS b-jet identification performance and efficiency measurement with t{\bar{t}}tt¯ events in pp collisions at \sqrt{s}=13s=13 TeV”, The European Physical Journal C, 79(11). (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[7] ATLAS Collaboration, 2019, “Combination of searches for Higgs boson pairs in pp collisions at s=13TeV with the ATLAS detector”, Physics Letters B, 800 135103. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[8] ATLAS Collaboration, 2019, “Electron and photon performance measurements with the ATLAS detector using the 2015–2017 LHC proton-proton collision data”, Journal of Instrumentation, 14(12) P12006-P12006. (SCIE) (IF: 1.121; SCI ranking: 87.5%)
[9] ATLAS Collaboration, 2019, “Identification of boosted Higgs bosons decaying into b-quark pairs with the ATLAS detector at 13 \text {TeV}TeV”, The European Physical Journal C, 79(10). (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[10] ATLAS Collaboration, 2019, “Measurement of K_S^0KS0 and \Lambda ^0Λ0 production in t \bar{t}tt¯ dileptonic events in pp collisions at \sqrt{s} =s= 7 TeV with the ATLAS detector”, The European Physical Journal C, 79(12). (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[11] ATLAS Collaboration, 2019, “Measurement of W^\pm W± boson production in Pb+Pb collisions at \sqrt{s_{\mathrm{NN}}} = 5.02~\text {Te}\text {V}sNN=5.02Te with the ATLAS detector”, The European Physical Journal C, 79(11). (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[12] ATLAS Collaboration, 2019, “Measurement of W^{\pm }W±-boson and Z-boson production cross-sections in pp collisions at \sqrt{s}=2.76s=2.76 TeV with the ATLAS detector”, The European Physical Journal C, 79(11). (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[13] ATLAS Collaboration, 2019, “Measurement of angular and momentum distributions of charged particles within and around jets in Pb+Pb and pp collisions at sNN=5.02 TeV with the ATLAS detector”, Physical Review C, 100(6). (SCIE) (IF: 3.199; SCI ranking: 31.6%)
[14] ATLAS Collaboration, 2019, “Measurement of the inclusive cross-section for the production of jets in association with a Z boson in proton–proton collisions at 8 TeV using the ATLAS detector”, The European Physical Journal C, 79(10). (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[15] ATLAS Collaboration, 2019, “Measurement of the inclusive isolated-photon cross section in pp collisions at s \sqrt{s} = 13 TeV using 36 fb−1 of ATLAS data”, Journal of High Energy Physics, 2019(10). (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[16] ATLAS Collaboration, 2019, “Observation of Electroweak Production of a Same-Sign W Boson Pair in Association with Two Jets in pp Collisions at s=13 TeV with the ATLAS Detector”, Physical Review Letters, 123(16). (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[17] ATLAS Collaboration, 2019, “Properties of jet fragmentation using charged particles measured with the ATLAS detector in pp collisions at s=13 TeV”, Physical Review D, 100(5). (SCIE) (IF: 5.407; SCI ranking: 23.2%,24.1%)
[18] collaboration The ATLAS, 2019, “Resolution of the ATLAS muon spectrometer monitored drift tubes in LHC Run 2”, Journal of Instrumentation, 14(09) P09011-P09011. (SCIE) (IF: 1.121; SCI ranking: 87.5%)
[19] ATLAS Collaboration, 2019, “Search for a heavy charged boson in events with a charged lepton and missing transverse momentum from pp collisions at s=13 TeV with the ATLAS detector”, Physical Review D, 100(5). (SCIE) (IF: 5.407; SCI ranking: 23.2%,24.1%)
[20] ATLAS Collaboration, 2019, “Search for bottom-squark pair production with the ATLAS detector in final states containing Higgs bosons, b-jets and missing transverse momentum”, Journal of High Energy Physics, 2019(12). (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[21] ATLAS Collaboration, 2019, “Search for diboson resonances in hadronic final states in 139 fb−1 of pp collisions at s \sqrt{s} = 13 TeV with the ATLAS detector”, Journal of High Energy Physics, 2019(9). (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[22] ATLAS Collaboration, 2019, “Search for displaced vertices of oppositely charged leptons from decays of long-lived particles in pp collisions at s=13 TeV with the ATLAS detector”, Physics Letters B, 801 135114. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[23] ATLAS Collaboration, 2019, “Search for excited electrons singly produced in proton–proton collisions at \sqrt{s} ~=~13~\text {Te}\text {V}s=13Te with the ATLAS experiment at the LHC”, The European Physical Journal C, 79(9). (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[24] ATLAS Collaboration, 2019, “Search for heavy neutral leptons in decays of W bosons produced in 13 TeV pp collisions using prompt and displaced signatures with the ATLAS detector”, Journal of High Energy Physics, 2019(10). (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[25] ATLAS Collaboration, 2019, “Search for non-resonant Higgs boson pair production in the bbℓνℓν final state with the ATLAS detector in pp collisions at s=13 TeV”, Physics Letters B, 801 135145. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[26] ATLAS Collaboration, 2019, “Search for the Higgs boson decays H → ee and H → eμ in pp collisions at s=13TeV with the ATLAS detector”(Search BSM H(125)->emu lepton flavor violating decay and H(125)->ee), Physics Letters B, 801 135148. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[27] ATLAS Collaboration, 2019, “Searches for lepton-flavour-violating decays of the Higgs boson in s=13 TeV pp collisions with the ATLAS detector”, Physics Letters B, 800 135069. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[28] ATLAS collaboration, 2018, “Search for heavy resonances decaying into a W or Z boson and a Higgs boson in final states with leptons and b-jets in 36 fb−1 of √s = 13 TeV pp collisions with the ATLAS detector”, JHEP, 03(2018), 174, JHEP, 03(2018), 174.
[29] The ATLAS Collaboration, 2018, “Observation of H->bb and VH production with the ATLAS detector”, Phys. Lett. B 786 (2018) 59, B 786 (2018) 59-86.
[30] ATLAS Collaboration , 2018, “Measurement of the Higgs boson mass in the H→ZZ*→4ℓ and H→γγ with at √s=13 TeV pp collision using the ATLAS detector ”, Phys. Lett. B 784 (2018) 345, Phys. Lett. B 784 (2018) 345.
[31] AMS Collaboration M. Aguilar Madrid, CIEMAT et al., 2018, “Observation of New Properties of Secondary Cosmic Rays Lithium, Beryllium, and Boron by the Alpha Magnetic Spectrometer on the International Space Station”, Phys.Rev.Lett., 120 (2018) no.2, 021101.
[32] AMS Collaboration M. Aguilar Madrid, CIEMAT et al., 2018, “Observation of Complex Time Structures in the Cosmic-Ray Electron and Positron Fluxes with the Alpha Magnetic Spectrometer on the International Space Station”, Phys.Rev.Lett., 121 (2018) no.5, 051102.
[33] AMS Collaboration M. Aguilar Madrid, CIEMAT et al., 2018, “Observation of Fine Time Structures in the Cosmic Proton and Helium Fluxes with the Alpha Magnetic Spectrometer on the International Space Station”, Phys.Rev.Lett., 121 (2018) no.5, 051101.
[34] AMS Collaboration M. Aguilar Madrid, CIEMAT et al., 2018, “Precision Measurement of Cosmic-Ray Nitrogen and its Primary and Secondary Components with the Alpha Magnetic Spectrometer on the International Space Station”, Phys.Rev.Lett., 121 (2018) no.5, 051103.
[35] ATLAS Collaboration , 2018, “Search for heavy ZZ resonances in the l+l−l+l−and l+l−νν-bar final states using proton– proton collisions at sqrt(s)=13TeV with the ATLAS detector”, European Physical Journal C, 78 (2018) no.4, 293, European Physical Journal C, 78 (2018) no.4, 293.
[36] ATLAS Collaboration , 2018, “Measurement of photon–jet transverse momentum correlations in 5.02 TeV Pb + Pb and pp collisions with ATLAS”, Phys. Lett. B 789 (2019) 167, Phys. Lett. B 789 (2019) 167.
[37] ATLAS Collaboration , 2018, “ZZ→ℓℓℓ'ℓ' cross-section measurements and search for anomalous triple gauge couplings in 13 TeV pp collisions with the ATLAS detector”, Phys. Rev. D 97, 032005, Phys. Rev. D 97, 032005.
[38] ATLAS Collaboration, 2017, “Evidence for the H->bb decay with the ATLAS detector ”, JHEP 1712 (2017) 024, JHEP 1712 (2017) 024.
[39] ATLAS Collaboration , 2017, “Measurement of the cross-section for electroweak production of dijets in association with a Z boson in pp collisions at √s=13 TeV with the ATLAS detector”, Physics Letters B 775 (2017) 206, Physics Letters B 775 (2017) 206.
[40] ATLAS Collaboration, 2017, “Measurement of WW/WZ \rightarrow \ell \nu q q^{\prime } W W / W Z → ℓ ν q q ′ production with the hadronically decaying boson reconstructed as one or two jets in pp collisions at \sqrt{s} =8~\text {TeV} s = 8 TeV with ATLAS, and constraints on anomalous gauge couplings”, The European Physical Journal C, 77(8), 563-610. (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[41] ATLAS Collaboration, 2017, “Measurement of detector-corrected observables sensitive to the anomalous production of events with jets and large missing transverse momentum in pp collisions at s√=13 TeV using the ATLAS detector”, The European Physical Journal C, 77(11), 765-809. (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[42] ATLAS Collaboration, 2017, “Measurement of inclusive and differential cross sections in the H → ZZ * → 4ℓ decay channel in pp collisions at s = 13 \sqrt{s}=13 TeV with the ATLAS detector”, Journal of High Energy Physics, 2017(10), 132-143. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[43] ATLAS Collaboration, 2017, “Measurement of jet p T correlations in Pb + Pb and pp collisions at s NN = 2.76 TeV with the ATLAS detector”, Physics Letters B, 774, 379-402. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[44] ATLAS Collaboration, 2017, “Measurement of lepton differential distributions and the top quark mass in tt¯tt¯ production in pppp collisions at s√=8s=8 TeV with the ATLAS detector”, The European Physical Journal C, 77(11), 804-888. (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[45] ATLAS Collaboration, 2017, “Measurement of the t t ¯ γ t\overline{t}\gamma production cross section in proton-proton collisions at s = 8 \sqrt{s}=8 TeV with the ATLAS detector”, Journal of High Energy Physics, 2017(11), 86-127. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[46] ATLAS Collaboration, 2017, “Measurement of the cross-section for electroweak production of dijets in association with a Z boson in pp collisions at √s=13 TeV with the ATLAS detector”, Physics Letters B, 775, 206-228. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[47] ATLAS Collaboration, 2017, “Measurement of the inclusive jet cross-sections in proton-proton collisions at s = 8 \sqrt{s}=8 TeV with the ATLAS detector”, Journal of High Energy Physics, 2017(9), 20-74. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[48] ATLAS Collaboration, 2017, “Measurements of top-quark pair differential cross-sections in the lepton+jets channel in pp collisions at s = 13 \sqrt{s}=13 TeV using the ATLAS detector”, Journal of High Energy Physics, 2017(11), 191-263. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[49] M. Aguilar et al. AMS Collaboration, 2017, “Observation of the Identical Rigidity Dependence of He, C, and O Cosmic Rays at High Rigidities by the Alpha Magnetic Spectrometer on the International Space Station”, Physical Review Letters, 119(25), 251101-1-251101-8. (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[50] ATLAS Collaboration, 2017, “Search for an invisibly decaying Higgs boson or dark matter candidates produced in association with a ZZ boson in pppp collisions at s√=s= 13 TeV with the ATLAS detector”, Physics Letters B, 776, 318-337. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[51] ATLAS Collaboration, 2017, “Search for dark matter in association with a Higgs boson decaying to two photons at s=13 TeV with the ATLAS detector”, Physical Review D, 96(11), 112004-1-112004-31. (SCIE) (IF: 5.407; SCI ranking: 23.2%,24.1%)
[52] ATLAS Collaboration, 2017, “Search for Dark Matter Produced in Association with a Higgs Boson Decaying to bb¯ Using 36 fb−1 of pp Collisions at s=13 TeV with the ATLAS Detector”, Physical Review Letters, 119(18), 181804-1-181804-21. (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[53] ATLAS Collaboration, 2017, “Search for direct top squark pair production in events with a Higgs or Z boson, and missing transverse momentum in s = 13 \sqrt{s}=13 TeV pp collisions with the ATLAS detector”, Journal of High Energy Physics, 2017(8), 006-035. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[54] ATLAS Collaboration, 2017, “Search for Heavy Higgs Bosons A/H Decaying to a Top Quark Pair in pp Collisions at s=8 TeV with the ATLAS Detector”, Physical Review Letters, 119(19), 191803-1-191803-20. (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[55] ATLAS Collaboration, 2017, “Search for heavy resonances decaying to a W or Z boson and a Higgs boson in the qq¯(′)bb¯ final state in pp collisions at s√=13 TeV with the ATLAS detector”, Physics Letters B, 774, 494-515. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[56] ATLAS Collaboration, 2017, “Search for new high-mass phenomena in the dilepton final state using 36 fb−1 of proton-proton collision data at s = 13 \sqrt{s}=13 TeV with the ATLAS detector”, Journal of High Energy Physics, 2017(10), 182-224. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[57] ATLAS Collaboration, 2017, “Search for new phenomena in high-mass diphoton final states using 37 fb −1 of proton–proton collisions collected at s=13 TeV with the ATLAS detector”, Physics Letters B, 775, 105-125. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[58] ATLAS Collaboration, 2017, “Search for pair production of heavy vector-like quarks decaying to high-p T W bosons and b quarks in the lepton-plus-jets final state in pp collisions at s = 13 \sqrt{s}=13 TeV with the ATLAS detector”, Journal of High Energy Physics, 2017(10), 141-182. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[59] ATLAS Collaboration, 2017, “Search for supersymmetry in events with bb-tagged jets and missing transverse momentum in pppp collisions at s√=13s=13 TeV with the ATLAS detector”, Journal of High Energy Physics, 2017(11), 195-245. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[60] ATLAS Collaboration, 2017, “Search for supersymmetry in final states with two same-sign or three leptons and jets using 36 fb−1 of s = 13 \sqrt{s}=13 TeV pp collision data with the ATLAS detector”, Journal of High Energy Physics, 2017(9), 84-127. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[61] ATLAS Collaboration, 2017, “Search for top quark decays t → qH, with H → γγ, in s = 13 \sqrt{s}=13 TeV pp collisions using the ATLAS detector”, Journal of High Energy Physics, 2017(10), 129-170. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[62] ATLAS Collaboration, 2017, “Searches for the Zγ decay mode of the Higgs boson and for new high-mass resonances in pp collisions at s = 13 \sqrt{s}=13 TeV with the ATLAS detector”, Journal of High Energy Physics, 2017(10), 112-164. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[63] ATLAS Collaboration, 2017, “Study of ordered hadron chains with the ATLAS detector”, Physical Review D, 96(9), 092008-1-092008-31. (SCIE) (IF: 5.407; SCI ranking: 23.2%,24.1%)
[64] ATLAS Collaboration, 2017, “Study of the material of the ATLAS inner detector for Run 2 of the LHC”, Journal of Instrumentation, 12(12), P12009-P12009. (SCIE) (IF: 1.121; SCI ranking: 87.5%)
[65] ATLAS Collaboration, 2017, “Study of WWγWWγ and WZγWZγ production in pppp collisions at s√=8s=8 TeV and search for anomalous quartic gauge couplings with the ATLAS experiment”, The European Physical Journal C, 77(9), 646-690. (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[66] M. Aguilar et al. AMS Collaboration, 2016, “Precision Measurement of the Boron to Carbon Flux Ratio in Cosmic Rays from 1.9 GV to 2.6 TV with the Alpha Magnetic Spectrometer on the International Space Station”, Phys. Rev. Lett., 117, 231102. (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[67] ATLAS Collaboration, 2016, “A measurement of material in the ATLAS tracker using secondary hadronic interactions in 7 TeV pp collisions”, JINST 11, JINST 11 (2016) P11020.
[68] ATLAS Collaboration, 2016, “Measurement of W boson angular distributions in events with high transverse momentum jets at √s = 8 TeV using the ATLAS detector”, Phys. Lett. B 765, Phys. Lett. B 765 (2017) 132.
[69] ATLAS Collaboration, 2016, “Search for dark matter in association with a Higgs boson decaying to b-quarks in pp collisions at √s =13 TeV with the ATLAS detector”, Phys. Lett. B 765, Phys. Lett. B 765 (2016) 11.
[70] M. Aguilar et al. AMS Collaboration, 2016, “Antiproton Flux, Antiproton-to-Proton Flux Ratio, and Properties of Elementary Particle Fluxes in Primary Cosmic Rays Measured with the Alpha Magnetic Spectrometer on the International Space Station”, Phys. Rev. Lett, Phys.Rev.Lett. 117, 091103. (SCIE) (IF: 9.185; SCI ranking: 9.3%)
[71] ATLAS Collaboration, 2016, “Dark matter interpretations of ATLAS searches for the electroweak production of supersymmetric particles in √s=8 TeV proton--proton collisions”, JHEP 09, JHEP 09 (2016) 175.
[72] ATLAS Collaboration, 2016, “Luminosity determination in pp collisions at √s=8 TeV using the ATLAS detector at the LHC”, Eur. Phys. J. C 76, Eur. Phys. J. C 76 (2016) 653.
[73] ATLAS Collaboration, 2016, “Measurement of W+W−production in association with one jet in proton--proton collisions at √s=8 TeV with the ATLAS detector”, Phys. Lett. B 763, Phys. Lett. B 763 (2016) 114.
[74] ATLAS Collaboration, 2016, “Search for dark matter produced in association with a hadronically decaying vector boson in pp collisions at √s =13~TeV with the ATLAS detector”, Phys. Lett. B 763, Phys. Lett. B 763 (2016) 251.
[75] ATLAS Collaboration, 2016, “Study of hard double-parton scattering in four-jet events in pp collisions at √s=7 TeV with the ATLAS experiment”, JHEP 11, JHEP 11 (2016) 110.
[76] ATLAS Collaboration, 2015, “Measurement of the branching ratio Γ(Λ0b→ψ(2S)Λ0) /Γ(Λ0b→J/ψΛ0) with the ATLAS detector”, Physics Letters B, Physics Letters B 751 (2015) 63-80. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[77] ATLAS Collaboration, 2015, “Measurement of the production of neighbouring jets in lead-lead collisions at sNN√=2.76 TeV with the ATLAS detector””, Phys. Lett. B, Phys. Lett. B 751 (2015) 376. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[78] ATLAS Collaboration, 2015, “Search for high-mass diboson resonances with boson-tagged jets in proton-proton collisions at s√=8 TeV with the ATLAS detector”, Journal of High Energy Physics, JHEP 12 (2015) 55. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[79] ATLAS Collaboration, 2015, “Measurement of colour flow with the jet pull angle in tt¯events using the ATLAS detector at s√=8 TeV”, Physics Letters B, Physics Letters B (2015) 475-493. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[80] ATLAS Collaboration, 2015, “Measurement of transverse energy--energy correlations in multi-jet events in pp collisions at s√=7 TeV using the ATLAS detector and determination of the strong coupling constant αs(mZ)”, Physics Letters B, Physics Letters B 750 (2015) 427-447. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[81] M. Aguilar et al. AMS Collaboration, 2015, “Precision Measurement of the Helium Flux in Primary Cosmic Rays of Rigidities 1.9 GV to 3 TV with the Alpha Magnetic Spectrometer on the International Space Station”, Phys. Rev. Lett., 115, 211101 (2015).
[82] ATLAS Collaboration, 2015, “Search for lepton-flavour-violating H→μτ decays of the Higgs boson with the ATLAS detector”, JOURNAL OF HIGH ENERGY PHYSICS, JHEP11(2015)211. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[83] ATLAS Collaboration,, 2015, “Search for new light gauge bosons in Higgs boson decays to four-lepton final states in pp collisions at sqrt(s)=8TeV with the ATLAS detector at the LHC””, Phys. Rev. D 92 (2015) 092001, Phys. Rev. D 92 (2015) 092001.
[84] ATLAS Collaboration, 2015, “Analysis of events with b-jets and a pair of leptons of the same charge in pp collisions at s√=8 TeV with the ATLAS detector”, Journal of High Energy Physics, JHEP 10 (2015) 150. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[85] ATLAS Collaboration, 2015, “ATLAS Run 1 searches for direct pair production of third-generation squarks at the Large Hadron Collider”, Eur. Phys. J., Eur. Phys. J. C75 (2015) 510.
[86] ATLAS Collaboration, 2015, “Determination of the top-quark pole mass using $t t$ +1-jet events collected with the ATLAS experiment in 7 TeV pp collisions”, Journal of High Energy Physics, JHEP 10 (2015) 121. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[87] ATLAS Collaboration, 2015, “Measurement of exclusive γγ→ℓ+ℓ− production in proton--proton collisions at s√=7 TeV with the ATLAS detector”, Physics Letters B, Physics Letters B 749 (2015) 242-261. (SCIE) (IF: 4.95; SCI ranking: 27.5%,21.1%,31%)
[88] ATLAS Collaboration, 2015, “Measurement of the top quark branching ratios into channels with leptons and quarks with the ATLAS detector”, Phys. Rev. D 92, 072005 (2015), Phys. Rev. D 92, 072005 (2015).
[89] ATLAS Collaboration, 2015, “Search for massive, long-lived particles using multitrack displaced vertices or displaced lepton pairs in pp collisions at s√ = 8TeV with the ATLAS detector”, Phys. Rev. D 92, 072004 (2015), Phys. Rev. D 92, 072004 (2015).
[90] ATLAS Collaboration, 2015, “Search for photonic signatures of gauge-mediated supersymmetry in 8 TeV pp collisions with the ATLAS detector”, Phys. Rev. D, Phys. Rev. D 92 (2015) 072001. (SCIE) (IF: 5.407; SCI ranking: 23.2%,24.1%)
[91] ATLAS Collaboration, 2015, “Search for the associated production of the Higgs boson with a top quark pair in multilepton final states with the ATLAS detector”, Physics Letters B 749 (2015) 519-541, Physics Letters B 749 (2015) 519-541.
[92] ATLAS Collaboration, 2015, “Study of the spin and parity of the Higgs boson in diboson decays with the ATLAS detector”, The European Physical Journal C, Eur. Phys. J. C75 (2015) 476. (SCIE) (IF: 4.994; SCI ranking: 27.6%)
[93] ATLAS Collaboration, 2015, “Summary of the ATLAS experiment's sensitivity to supersymmetry after LHC Run 1 - interpreted in the phenomenological MSSM”, JOURNAL OF HIGH ENERGY PHYSICS, JHEP 10 (2015) 134. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[94] ATLAS Collaboration, 2015, “Summary of the searches for squarks and gluinos using s√ = 8 TeV pp collisions with the ATLAS experiment at the LHC”, JOURNAL OF HIGH ENERGY PHYSICS, JHEP 10 (2015) 054. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[95] ATLAS Collaboration, 2015, “Z boson production in p+Pb collisions at √sNN= 5.0 2 TeV measured with the ATLAS detector”, Phys. Rev. C, Phys. Rev. C 92, 044915 (2015). (SCIE) (IF: 3.199; SCI ranking: 31.6%)
[96] ATLAS Collaboration, 2015, “Constraints on new phenomena via Higgs boson couplings and invisible decays with the ATLAS detector”, JOURNAL OF HIGH ENERGY PHYSICS, JHEP11(2015)206. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[97] ATLAS Collaboration, 2015, “Measurement of charged-particle spectra in Pb+Pb collisions at sNN√=2.76 TeV with the ATLAS detector at the LHC”, Journal of High Energy Physics, JHEP09(2015)050. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
[98] ATLAS Collaboration, 2015, “Measurement of differential J/ψ production cross-sections and forward-backward ratio in p+Pb collisions with the ATLAS detector”, Phys. Rev. C 92, 034904 (2015), Phys. Rev. C 92, 034904 (2015).
[99] ATLAS Collaboration, 2015, “Measurement of the correlation between flow harmonics of different order in lead-lead collisions at sNN√=2.76 TeV with the ATLAS detector”, Phys. Rev. C 92, 034903 (2015), Phys. Rev. C 92, 034903 (2015).
[100] ATLAS Collaboration, 2015, “Measurement of the tt¯W and tt¯Z production cross sections in pp collisions at s√=8 TeV with the ATLAS detector”, JOURNAL OF HIGH ENERGY PHYSICS, JHEP 11 (2015) 172. (SCIE) (IF: 6.376; SCI ranking: 20.7%)
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發現與突破

[1] 西元年：2016
研究人員(中)：李世昌、 M. Aguilar, L. Ali Cavasonza, B. Alpat, G. Ambrosi, L. Arruda, N. Attig, S. Aupetit, P. Azzarello, A. Bachlechner, F. Barao, A. Barrau, L. Barrin, A. Bartoloni, L. Basara, S. Başegˇ mez-du Pree, M. Battarbee, R. Battiston,a J. Bazo,b U. Becker, M. Behlmann, B. Beischer, J. Berdugo, B. Bertucci, V. Bindi, G. Boella, W. de Boer, K. Bollweg, V. Bonnivard, B. Borgia, M. J. Boschini, M. Bourquin, E. F. Bueno, J. Burger, F. Cadoux, X. D. Cai, M. Capell, S. Caroff, J. Casaus, G. Castellini, I. Cernuda, F. Cervelli, M. J. Chae, Y. H. Chang, A. I. Chen, G. M. Chen, H. S. Chen, L. Cheng, H. Y. Chou, E. Choumilov, V. Choutko, C. H. Chung, C. Clark, R. Clavero, G. Coignet, C. Consolandi, A. Contin, C. Corti, B. Coste, W. Creus, M. Crispoltoni, Z. Cui, Y. M. Dai, C. Delgado, S. Della Torre, M. B. Demirköz, L. Derome, S. Di Falco, F. Dimiccoli, C. Díaz, P. von Doetinchem, F. Dong, F. Donnini, M. Duranti, D. D’Urso,c A. Egorov, A. Eline, T. Eronen, J. Feng,d E. Fiandrini, E. Finch, P. Fisher, V. Formato, Y. Galaktionov, G. Gallucci, B. García, R. J. García-López, C. Gargiulo, H. Gast, I. Gebauer, M. Gervasi, A. Ghelfi, F. Giovacchini, P. Goglov, D. M. Gómez-Coral, J. Gong, C. Goy, V. Grabski, D. Grandi, M. Graziani, I. Guerri, K. H. Guo, M. Habiby, S. Haino, K. C. Han, Z. H. He, M. Heil, J. Hoffman, T. H. Hsieh, H. Huang,e Z. C. Huang, C. Huh, M. Incagli, M. Ionica, W. Y. Jang, H. Jinchi, S. C. Kang, K. Kanishev, G. N. Kim, K. S. Kim, Th. Kirn, C. Konak, O. Kounina, A. Kounine, V. Koutsenko, M. S. Krafczyk, G. La Vacca, E. Laudi, G. Laurenti, I. Lazzizzera, A. Lebedev, H. T. Lee, S. C. Lee, C. Leluc, H. S. Li, J. Q. Li,f J. Q. Li, Q. Li, T. X. Li, W. Li, Z. H. Li, Z. Y. Li,d S. Lim, C. H. Lin, P. Lipari, T. Lippert, D. Liu, Hu Liu,g S. Q. Lu,d Y. S. Lu, K. Luebelsmeyer, F. Luo, J. Z. Luo, S. S. Lv, R. Majka, C. Mañá, J. Marín, T. Martin, G. Martínez, N. Masi, D. Maurin, A. Menchaca-Rocha, Q. Meng, D. C. Mo, L. Morescalchi,h P. Mott, T. Nelson, J. Q. Ni, N. Nikonov, F. Nozzoli,c P. Nunes, A. Oliva, M. Orcinha, F. Palmonari, C. Palomares, M. Paniccia, M. Pauluzzi, S. Pensotti, R. Pereira, N. Picot-Clemente, F. Pilo, C. Pizzolotto,c V. Plyaskin, M. Pohl, V. Poireau, A. Putze,i L. Quadrani, X. M. Qi, X. Qin,j Z. Y. Qu,k T. Räihä, P. G. Rancoita, D. Rapin, J. S. Ricol, I. Rodríguez, S. Rosier-Lees, A. Rozhkov, D. Rozza, R. Sagdeev, J. Sandweiss, P. Saouter, S. Schael, S. M. Schmidt, A. Schulz von Dratzig, G. Schwering, E. S. Seo, B. S. Shan, J. Y. Shi, T. Siedenburg, D. Son, J. W. Song, W. H. Sun,l M. Tacconi, X. W. Tang, Z. C. Tang, L. Tao, D. Tescaro, Samuel C. C. Ting, S. M. Ting, N. Tomassetti, J. Torsti, C. Türkoğlu, T. Urban, V. Vagelli, E. Valente, C. Vannini, E. Valtonen, M. Vázquez Acosta, M. Vecchi, M. Velasco, J. P. Vialle, V. Vitale,c S. Vitillo, L. Q. Wang, N. H. Wang, Q. L. Wang, X. Wang, X. Q. Wang, Z. X. Wang, C. C. Wei,m Z. L. Weng, K. Whitman, J. Wienkenhöver, M. Willenbrock, H. Wu, X. Wu, X. Xia,j R. Q. Xiong, W. Xu, Q. Yan, J. Yang, M. Yang, Y. Yang, H. Yi, Y. J. Yu, Z. Q. Yu, S. Zeissler, C. Zhang, J. Zhang,e J. H. Zhang, S. D. Zhang,f S. W. Zhang, Z. Zhang, Z. M. Zheng, Z. Q. Zhu,n H. L. Zhuang, V. Zhukov, A. Zichichi, N. Zimmermann, P. Zuccon, 2016, “Antiproton Flux, Antiproton-to-Proton Flux Ratio, and Properties of Elementary Particle Fluxes in Primary Cosmic Rays Measured with the Alpha Magnetic Spectrometer on the International Space Station”, PHYSICAL REVIEW LETTERS, Volume 117, pp. 091103. (SCI) (IF: 7.512; SCI ranking: 7.7%)　上傳論文全文
研究人員(英)：LEE, SHIH-CHANG, M. Aguilar et al. (AMS Collaboration)
研究成果名稱(中)：在宇宙中新觀察到的基本粒子特性
研究成果名稱(英)：New observations of the properties of elementary particles in the cosmos
簡要記述(中)：2016年中AMS發表了反質子的能譜。這四種基本粒子（包含質子、電子、反質子與正電子）的宇宙射線具有不衰變特性並在銀河系播。電子與正電子具有遠小於質子與反質子的質量。由於同步輻射效應，造成它們損失更多能量在星系磁場中。這些基本粒子的宇宙射線通量及通量比藉由阿爾法磁譜儀而被精確的測量。在高能區域，質子、反質子與正電子譜線被發現具有相同的隨能量關聯性。然而電子譜線展示出一個不一樣的隨能量關聯性。在宇宙中，這些是被新觀察到的基本粒子特性。在宇宙射線實驗數據中，反質子與正電子為提供洞察新物理現象（例如暗物質特性）起了關鍵作用。

簡要記述(英)：There are four charged elementary particles, proton, electron, antiproton and positron, which have infinite life time and travel through the Galaxy as cosmic rays. Electron and positron have much smaller mass than proton and antiproton so they lose much more energy in the galactic magnetic field due to synchrotron. The fluxes and flux ratios of these elementary particles in cosmic rays are precisely measured by Alpha Magnetic Spectrometer. In the high energies, proton, antiproton, and positron spectra are found to have nearly identical energy dependence.However electron spectrum exhibits a different rigidity dependence. These are new observations of the properties of elementary particles in the cosmos. Experimental data on cosmic-ray antiproton and positrons are crucial for providing insight into new physics phenomena such as the nature of dark matter.

主要相關著作：

M. Aguilar et al. AMS Collaboration, 2016, “Antiproton Flux, Antiproton-to-Proton Flux Ratio, and Properties of Elementary Particle Fluxes in Primary Cosmic Rays Measured with the Alpha Magnetic Spectrometer on the International Space Station”, Phys. Rev. Lett, Phys.Rev.Lett. 117, 091103. (SCIE) (IF: 9.185; SCI ranking: 9.3%)

[2] 西元年：2013
研究人員(中)：李世昌、AMS實驗組
研究人員(英)：LEE, SHIH-CHANG, AMS Collaboration
研究成果名稱(中)：宇宙射線中正電子分率的精確測量
研究成果名稱(英)：First Result from the Alpha Magnetic Spectrometer on the International Space Station: Precision Measurement of the Positron Fraction in Primary Cosmic Rays of 0.5–350 GeV
簡要記述(中)：首次精確量測宇宙中正電子佔所有電子之比率的能譜至350GeV.結果顯示有新的能同時產生正電子與負電子的源.此新的正負電子源有可能是組成暗物質的基本粒子,或是前所未知的天體源.
簡要記述(英)：The spectrum of positron fraction in the cosmic ray is measured with unprecedented precision to the energy of 350GeV. Theresult indicates the existence of a new common source of electrons and positrons. The new source could be dark matter annihilation or some unkown source of astrophysical origin.

主要相關著作：

M. Aguilar, et al AMS Collaboration , 2013, “First Result from the AMS on the ISS: Precision Measurement of the Positron Fraction in Primary Cosmic Rays of 0.5-350 GeV”, Phys. Rev. Lett., Phys. Rev. Lett. 110, 141102(2013). (SCIE) (IF: 9.185; SCI ranking: 9.3%)

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