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+# Aplicaciones a medicina y +
+
+Instructor(s): To be defined
+
+* Number of ECTS: 5 ECTS
+* Number of hours: 140 hours of total work. (final distribution to be defined/discussed)
+	* 32 hours of classes (4 hrs per week for 8 weeks)
+	* 16 hours of tutorials (2 hrs per week for 8 weeks)
+	* 32 hours of written assignments (8 homeworks of 4 hrs each)
+	* 60 hours of reading assignments (300 pages at 5 pages per hr)
+
+## Course description
+
+The objective of this course is to provide an introduction to the  **Bla, bla**
+
+## Topic overview (cada item se puede hacer un módulo independiente, pero se planean para tomarse en la secuencia indicada)
+
+1. Física nuclear con aplicación a técnicas médicas: Aceleradores de electrones, rayos X, Fuentes $\gamma$, aceleradores de iones, procesos físicos involucrados en la generación de radiación ionizante y la absorción de dosis, aplicación en radioterapia y medicina nuclear. (6 horas)  
+2. Radiobiología: células, división celular, reparación del DNA, organización de tejidos, efectos de la radiación en la materia, dinámica de poblaciones celulares, curvas y modelos de dosis-efecto, dependencia de la LET, OER, RBE, clasificación del daño celular, crecimiento tumoral, efecto bystander, efectos estocásticos y determinísticos. (6 horas)  
+3. Protección radiológica: Cantidades dosimétricas: absorbida, efectiva, equivalente. Modelos de blindajes y cálculos sencillos. Simulaciones (gamos + gate) + mini-proyecto (6 horas)  
+4. Imágenes médicas: Rayos X y CT, PET y RMN, Procesamiento de imágenes, segmentación. (6 horas)  
+* **Quedan 8 horas para profundizar en geant4, radioterapia, etc**
+
+### Pre-requisites/Co-requisites
+recomendado: primer semestre laconga completo en cualquier filial
+
+<!--
+## Schedule
+
+### Week 1: Introduction
+* What is matter made of?
+* Invariant masses
+* Scattering, Decay rate, etc
+### Week 2: Dirac equation
+* Dirac equation
+* Dirac field, conserved currents
+* Spinors: solutions, properties
+### Week 3: QED + Renornmalization
+* Minimal coupling
+* Feynman rules
+* Scattering Moller, Compton, $\mu+e$, etc
+* Propagators
+* Higher-order corrections
+* Renormalization
+### Week 4 and 5:  QCD [^1]
+* Gauge principles: SU(3), comparison between QED and QCD
+* Deep Inelastic Scattering (experimental evidence of the structure of the proton)
+* Perturbative QCD: Feynman rules, color factors, experimental measurements (experimental color evidence)
+* Confinement, hadronization and jets, alpha_S measurements
+* Hadron collisions (Soft and collinear divergences, Jets and infrared safety, Initial state and factorization, Monte Carlo event generators, jet reconstruction )
+
+### Week 6, 7 and 8: Weak interacions & SM [^1]
+* Charged weak interaction
+	* Couplings and applications
+	* Theoretical basics and parity violation, experimental tests for V-A interactions
+	* Properties of the W boson, Z boson
+	* CP violation and flavor physics: matrix CKM
+* The Standard Model (SM)
+	* Neutral currents and electroweak unification 
+	* Tests of the EWK model and top quark
+	* Higgs boson: discovery and properties,  constraints from W and top on the Higgs mass
+	* Complete Lagrangian of the SM
+	* The limitations of the SM
+
+
+
+## Course material
+
+* HALZEN, Francis; MARTIN, Alan D. Quark & Leptons: An Introductory Course In Modern
+* Particle Physics. John Wiley & Sons, 2008.
+* PERKINS, Donald H.; PERKINS, Donald H. Introduction to high energy physics. CAMBRIDGE university press, 2000.
+* GRIFFITHS, David. Introduction to elementary particles. John Wiley & Sons, 2008.
+* AITCHISON, Ian JR; HEY, Anthony JG. Gauge Theories in Particle Physics: A Practical Introduction: From Relativistic Quantum Mechanics to QED. CRC Press, 2012.
+* AITCHISON, Ian JR; HEY, Anthony JG. Gauge theories in particle physics: A practical introduction, Volume 2: Non-Abelian Gauge theories: QCD and the electroweak theory. CRC Press, 2012.
+
+## Ref
+
+[^1]: https://indico.in2p3.fr/event/22310/contributions/86461/note/
+-->