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
Change comment: There is no comment for this version
To version 14.1
edited by Ricardo Julio Rodríguez Fernández
on 2026/01/06 12:41
Change comment: There is no comment for this version

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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  
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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_10
24 -* Cross-section computation and application of dimensional regularizationIGFAE_2025_10
25 -* Optional: determination of the tau lepton mass from cross-section ratiosIGFAE_2025_10
26 -* Optional: estimation of Nc from the ratio of hadronic to leptonic cross-sectionsIGFAE_2025_10
25 +* 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 mechanicsIGFAE_2025_10
32 +* Familiarity with special relativity and quantum mechanics
31 31  * Basic calculus skills
32 32  
33 33  ----
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42 42  
43 43  **Expected outcomes:**
44 44  
45 -* Understanding the conceptual basis of jet quenching in a quark-gluon plasmaIGFAE_2025_10
46 -* Application of Feynman diagrams to model jet–medium scattering processesIGFAE_2025_10
47 -* Derivation of the Leading-Order (first-opacity) contribution to induced gluon radiationIGFAE_2025_10
48 -* Optional: Study of detailed balance using basic thermal field theory techniquesIGFAE_2025_10
47 +* 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 diagrammaticsIGFAE_2025_10
55 +* Familiarity with Feynman diagrammatics
54 54  * Basic calculus skills
55 55  
56 56  ----
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65 65  
66 66  **Expected outcomes:**
67 67  
68 -* Familiarity with numerical integration techniquesIGFAE_2025_10
69 -* Implementation of Leading-Order matrix elements for dijet production in proton–proton collisionsIGFAE_2025_10
70 -* Calculation and analysis of differential cross-sections with comparison to experimental dataIGFAE_2025_10
71 -* Optional: Extension to beyond LO correctionsIGFAE_2025_10
70 +* 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 conceptsIGFAE_2025_10
78 +* Basic familiarity with collider physics concepts
77 77  * Programming experience and elementary numerical analysis skills
78 78  
79 79  ----
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87 87  
88 88  **Expected outcomes:**
89 89  
90 -* Familiarity with nuclear collision geometry and numerical integration techniquesIGFAE_2025_10
91 -* Implementation of optical and Monte Carlo Glauber modelsIGFAE_2025_10
92 -* Optional: Calculation of eccentricities in non-central collisionsIGFAE_2025_10
92 +* 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 conceptsIGFAE_2025_10
99 +* Basic familiarity with collider or nuclear physics concepts
98 98  * Programming experience and elementary numerical analysis skills
99 99  
100 100  ----
proposal2.txt
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