Changes for page Lin Chen
Last modified by Ricardo Julio Rodríguez Fernández on 2026/06/30 12:53
From version 10.1
edited by Ricardo Julio Rodríguez Fernández
on 2025/08/04 09:51
on 2025/08/04 09:51
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To version 14.1
edited by Ricardo Julio Rodríguez Fernández
on 2026/01/06 12:41
on 2026/01/06 12:41
Change comment:
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... ... @@ -10,6 +10,8 @@ 10 10 ---- 11 11 12 12 === P1 (analytical) - NLO Corrections to Pair Production === 13 +==== Summer Fellow: Juan Esteban **Suárez Avendaño** 14 +==== 13 13 14 14 **Introduction:** 15 15 ... ... @@ -20,14 +20,14 @@ 20 20 **Expected outcomes:** 21 21 22 22 * Understanding of Feynman diagram rules and their application to QED processes 23 -* Tree-level and one-loop calculations for e⁺e⁻ → μ⁺μ⁻ IGFAE_2025_1024 -* Cross-section computation and application of dimensional regularization IGFAE_2025_1025 -* Optional: determination of the tau lepton mass from cross-section ratios IGFAE_2025_1026 -* Optional: estimation of Nc from the ratio of hadronic to leptonic cross-sections IGFAE_2025_1025 +* Tree-level and one-loop calculations for e⁺e⁻ → μ⁺μ⁻ 26 +* Cross-section computation and application of dimensional regularization 27 +* Optional: determination of the tau lepton mass from cross-section ratios 28 +* Optional: estimation of Nc from the ratio of hadronic to leptonic cross-sections 27 27 28 28 **Requirements:** 29 29 30 -* Familiarity with special relativity and quantum mechanics IGFAE_2025_1032 +* Familiarity with special relativity and quantum mechanics 31 31 * Basic calculus skills 32 32 33 33 ---- ... ... @@ -42,15 +42,15 @@ 42 42 43 43 **Expected outcomes:** 44 44 45 -* Understanding the conceptual basis of jet quenching in a quark-gluon plasma IGFAE_2025_1046 -* Application of Feynman diagrams to model jet–medium scattering processes IGFAE_2025_1047 -* Derivation of the Leading-Order (first-opacity) contribution to induced gluon radiation IGFAE_2025_1048 -* Optional: Study of detailed balance using basic thermal field theory techniques IGFAE_2025_1047 +* Understanding the conceptual basis of jet quenching in a quark-gluon plasma 48 +* Application of Feynman diagrams to model jet–medium scattering processes 49 +* Derivation of the Leading-Order (first-opacity) contribution to induced gluon radiation 50 +* Optional: Study of detailed balance using basic thermal field theory techniques 49 49 * Optional: Extension to higher-order terms in the opacity expansion 50 50 51 51 **Requirements:** 52 52 53 -* Familiarity with Feynman diagrammatics IGFAE_2025_1055 +* Familiarity with Feynman diagrammatics 54 54 * Basic calculus skills 55 55 56 56 ---- ... ... @@ -65,15 +65,15 @@ 65 65 66 66 **Expected outcomes:** 67 67 68 -* Familiarity with numerical integration techniques IGFAE_2025_1069 -* Implementation of Leading-Order matrix elements for dijet production in proton–proton collisions IGFAE_2025_1070 -* Calculation and analysis of differential cross-sections with comparison to experimental data IGFAE_2025_1071 -* Optional: Extension to beyond LO corrections IGFAE_2025_1070 +* Familiarity with numerical integration techniques 71 +* Implementation of Leading-Order matrix elements for dijet production in proton–proton collisions 72 +* Calculation and analysis of differential cross-sections with comparison to experimental data 73 +* Optional: Extension to beyond LO corrections 72 72 * Optional: Application to heavy-ion collisions via simple quenching models 73 73 74 74 **Requirements:** 75 75 76 -* Basic familiarity with collider physics concepts IGFAE_2025_1078 +* Basic familiarity with collider physics concepts 77 77 * Programming experience and elementary numerical analysis skills 78 78 79 79 ---- ... ... @@ -87,14 +87,14 @@ 87 87 88 88 **Expected outcomes:** 89 89 90 -* Familiarity with nuclear collision geometry and numerical integration techniques IGFAE_2025_1091 -* Implementation of optical and Monte Carlo Glauber models IGFAE_2025_1092 -* Optional: Calculation of eccentricities in non-central collisions IGFAE_2025_1092 +* Familiarity with nuclear collision geometry and numerical integration techniques 93 +* Implementation of optical and Monte Carlo Glauber models 94 +* Optional: Calculation of eccentricities in non-central collisions 93 93 * Optional: Mapping of impact parameter to centrality classes 94 94 95 95 **Requirements:** 96 96 97 -* Basic familiarity with collider or nuclear physics concepts IGFAE_2025_1099 +* Basic familiarity with collider or nuclear physics concepts 98 98 * Programming experience and elementary numerical analysis skills 99 99 100 100 ----
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