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---+!! Teoria Quântica de Campos I

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<img alt="Feynman.jpg" src="%ATTACHURLPATH%/Feynman.jpg" width="100%" /> <div align="right">
_Richard Feynman_
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---++ Professores
   * Sandra S. Padula
   * Sérgio F. Novaes <p> </p>
---++ Duração
   * 8 semanas
   * 32 horas <p> </p>
---++ Audiência
   * Estudantes de Pós-Graduação em Física Teórica e Experimental <p> </p>
---++ Matrícula
   * Os formulários e outros documentos podem ser encontrados [[http://www.ift.unesp.br/br/#!/pos-graduacao/formularios-e-documentos/][aqui]] <p> </p>
---++ Sobre o Curso

---++ Pré-requisitos Recomendados
   * É essencial ao menos um curso de Mecânica Quântica e desejável um curso de Teoria Clássica de Campos <p> </p>
---++ Formato do Curso
   * Aulas expositivas
   * Exercícios <p> </p>
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---++ Programa do Curso

---+++ 1. Introdução
   * 1.1 [[https://drive.google.com/file/d/1eCbHY5nJFGZ5c6sWrbQNXzHB0Cn9iw-S/view][Motivação, Notação e Convenções]]
---+++ 2. Campo de Klein-Gordon
   * 2.1 [[https://drive.google.com/file/d/1B3knJ38o3tJO3bitov2w0hbHgNz8SQ_2/view][A Necessidade do Campo]]
   * 2.2 [[https://drive.google.com/file/d/1IWb5U_heDCXe9zX5k-oYt0QnM2RgtHoG/view][Elementos da Teoria Clássica de Campos]]
   * 2.3 [[https://drive.google.com/file/d/1WJzIM51YPI5l-8C-isoCGld9AfBYuzpP/view][Campo de Klein-Gordon como Osciladores Harmônicos]]
   * 2.4 [[https://drive.google.com/file/d/1ibeF2SLUDuRVhRzw8NGWfbO_Be1JjR0-/view][Campo de Klein-Gordon no Espaço-Tempo]]
---+++ 3. Campo de Dirac
   * 3.1 [[https://drive.google.com/file/d/1bQfP0BIuXVeGTYaxljBaYuw9D_gy0DoE/view][Invariância de Lorentz em Equações de Onda]]
   * 3.2 [[https://drive.google.com/file/d/1uYnECSJIczViXILvhpcaJidN8TxOWdo2/view][Equação de Dirac]]
   * 3.3 [[https://drive.google.com/file/d/1KDxmB2OxcQ-DhOc_-6h_tNkc3m9K7dTD/view][Solução de Partícula Livre da Equação de Dirac]]
   * 3.4 [[https://drive.google.com/file/d/1NSCNXq8EUWmDL7CCnP-ENaapyxDKrAV6/view][Matrizes de Dirac e Bilineares de Campo de Dirac]]
   * 3.5 [[https://drive.google.com/file/d/1Tf1l5XMWCYowg25sAfZpYLs1N5LJegT_/view][Quantização do Campo de Dirac]]
   * 3.6 [[https://drive.google.com/file/d/12Sn5tfcpXP7RX7HBbd40otE8p3LVEmwW/view][Simetrias Discretas da Teoria de Dirac]]
---+++ 4. Campos Interagentes e Diagramas de Feynman
   * 4.1 [[https://drive.google.com/file/d/1qIDbIPU2CaQ-z-Iz0w9mB34C-wOJUS48/view][Teoria de Perturbação]]
   * 4.2 [[https://drive.google.com/file/d/1PKAthl8N2GosljHlQkVzNyLpGTmUHWEz/view][Expansão Perturbativa de Funções de Correlação]]
   * 4.3 [[https://drive.google.com/file/d/1JwQrCMyRyoKeekTkJVm37pZ7sxAHSK5b/view][Teorema de Wick]]
   * 4.4 [[https://drive.google.com/file/d/1qKUAzZOBDexSq7IoUdKTv7u_RfaJTZmE/view][Diagramas de Feynman]]
   * 4.5 [[https://drive.google.com/file/d/1Z8eUXaXCuj9PVaYHk-RvliC4kmYcmn3A/view][Seção de Choque e a Matriz S]]
   * 4.6 [[https://drive.google.com/file/d/1j5jSndq1siUVXnVvEfplP4lFPVoE053X/view][Computando elementos de matriz-S a partir de diagramas de Feynman]]
   * 4.7 [[https://drive.google.com/file/d/1nJg9aekMve7fLAoiWDLwzt3jejg7_TZI/view][Regras de Feynman para Férmions]]
   * 4.8 [[https://drive.google.com/file/d/11ZB08eiVfNS8Tm9_WR1D689v6Ki95h1K/view][Regras de Feynman para a Eletrodinâmica Quântica]] <p> </p>
---++ Leitura Sugerida
O presente curso foi fortemente baseado, com autorização do autor, no livro de Peskin:
   * *An Introduction to Quantum Field Theory*, Michael E. Peskin e Daniel V. Schroeder (Addison-Wesley Pub. Co., 1995)
      * http://www.slac.stanford.edu/~mpeskin/QFT.html <p> </p>
   * *Quantum Field Theory*, _Lewis H. Ryder_ (Cambridge University Press, Cambridge, 2nd Ed. 1996).
   * *Quantum Field Theory in a Nutshell*, _A. Zee_ (Princeton University Press, 2003).
   * *Field Quantization, _Walter Greiner e Joachim Reinhardt_ (Springer Verlag, Berlin, 1996),
   * *Quantum Field Theory*, F. Mandl and G. Shaw (John Wiley, Chichester, Revised Ed., 1993).
   * *Gauge Theories in Particle Physics*, _I. J. R. Aitchison and A.J.G. Hey_ (Graduate Student Series in Physics, !IoP, 2004) <p> </p>
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-- %USERSIG{Sergio Novaes - 2016-10-20}%

---++ Comments

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Topic revision: r3 - 2019-04-25 - schinaider
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