This Postgraduate certificate provides you with the necessary foundation in High Energy Physics to create instruments that will allow you to learn even more about the particles of the Universe”

Understanding dark matter, the origin of ultra-energetic cosmic rays or how violent cosmic processes occur is possible thanks to the studies that have been developed in High Energy Physics. A branch of physics that gained great social relevance in 2008 with the start-up of the LHC at CERN in Switzerland. An immense effort of scientists and technicians who seek, through different experiments, to learn more about the tiny particles of the universe.

However, these studies and experiments not only have a theoretical application and development, but have also allowed technological progress, especially with applications in medicine, which derive from the physics of accelerators. In view of this extensive field of growth, TECHhas designed this Postgraduate certificate, which provides the specialists with the most advanced knowledge in High Energy Physics.

A 100% online program, which will lead professionals to learn about groups, representations, symmetries or the application of Feynman calculus, in a comfortably way using any device with Internet connection. All this, by means of multimedia resources (video summaries, detailed videos, diagrams), essential readings or case studies, which will also allow them to dynamically deepen their knowledge of electrodynamics and chromodynamics of quarks or the Higgs boson.

In addition, professionals will reduce the long hours of study and memorization with the effective Relearning system, used by this educational institution in all its programs.
Thus, the professional is offered a 100% online program, compatible with their personal and/or work responsibilities. This is a 100% online program, which is compatible with the personal and/or work responsibilities of the professionals.

Enroll now in a Program that allows you 24-hour a day access to the most advanced topics in High Energy Physics"

This Postgraduate certificate in High Energy Physics contains the most complete and up-to-date program on the market. The most important features include:

• Practical case studies are presented by experts in Physics
• The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
• Practical exercises where the self-assessment process can be carried out to improve learning
• Its special emphasis on innovative methodologies
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection work
• Contents are accessible from any fixed or portable device with an Internet connection

With this Postgraduate certificate, you will obtain the information you need about the interactions of fundamental particles and their connection with the universe” 

The program’s teaching staff includes professionals from the sector who contribute their work experience to this educational program, as well as renowned specialists from leading societies and prestigious universities.

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations.

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise throughout the program. For this purpose, the student will be assisted by an innovative interactive video system created by renowned and experienced experts.

In 6 weeks, you will understand the physics concepts that led to the creation of the Large Hadron Collider"

With this university program you will have the latest advances in supersymmetry, strings and extra dimensions"

TECH uses the Relearning system, based on the reiteration of content, in all its programs. Its effectiveness allows a greater assimilation of concepts and the reduction of study hours. This will allow a better consolidation of knowledge by the professionals who will take this Program. In this way, they will be able to acquire an effective learning about symmetries, Feynman calculus or electrodynamics and chromodynamics of quarks. All of this, in addition to innovative multimedia content that can be accessed 24 hours a day from any electronic device with Internet connection.

A syllabus with a theoretical-practical approach that will allow you to easily delve into symmetries and conservation laws”

Module 1. High Energy Physics

1.1. Mathematical Methods: Groups and Representations

1.1.1. Theory of Groups
1.1.2. SO (3), SU(2) and SU(3) and SU(N) Groups
1.1.3. Lie Algebra
1.1.4. Representations
1.1.5. Multiplication of Representations

1.2. Symmetries

1.2.1. Symmetries and Conservation Laws
1.2.2. C, P, T Symmetries
1.2.3. CPT Symmetry Violation and Conservation
1.2.4. Angular Momentum
1.2.5. Addition of Angular Momentum

1.3. Feynman Calculus: Introduction

1.3.1. Average Lifetime
1.3.2. Cross Section
1.3.3. Fermi’s Golden Rule for Decay
1.3.4. Fermi’s Golden Rule for Dispersion
1.3.5. Dispersion of Two Bodies in the Center of Masses of Reference Systems

1.4. Application of Feynman Calculation: Toy Model

1.4.1. Toy Model: Introduction
1.4.2. Feynman Rules
1.4.3. Average Lifetime
1.4.4. Dispersion
1.4.5. Higher Order Diagrams

1.5. Quantum Electrodynamics

1.5.1. Dirac Equation
1.5.2. Solution for Dirac Equations
1.5.3. Bilinear Covariants
1.5.4. The Photon
1.5.5. Feynman Rules for Quantum Electrodynamics
1.5.6. Casimir’s Trick
1.5.7. Renormalization

1.6. Electrodynamics and Chromodynamics of Quarks

1.6.1. Feynman Rules
1.6.2. Production of Hadrons in Electron-Positron Collisions
1.6.3. Feynman Rules for Chromodynamics
1.6.4. Color Factors
1.6.5. Quark-Antiquark Interaction
1.6.6. Quark-Quark Interaction
1.6.7. Pair Annihilation in Quantum Chromodynamics

1.7. Weak Interaction

1.7.1. Weak Charged Interaction
1.7.2. Feynman Rules
1.7.3. Muon Decay
1.7.4. Neutron Decay
1.7.5. Pion Decay
1.7.6. Weak Interaction between Quarks
1.7.7. Weak Neutral Interaction
1.7.8. Electroweak Unification

1.8. Gauge Theories

1.8.1. Local Gauge Invariance
1.8.2. Yang-Millis Theory
1.8.3. Quantum Chromodynamics
1.8.4. Feynman Rules
1.8.5. Mass Term
1.8.6. Spontaneous Symmetry Breaking
1.8.7. Higgs Mechanism

1.9. Neutrino Oscillation

1.9.1. Solar Neutrino Problem
1.9.2. Neutrino Oscillation
1.9.3. Neutrino Masses
1.9.4. Mixing Matrix

1.10. Advanced Topics: Brief Introduction

1.10.1. Higgs Boson
1.10.2. Grand Oscillation
1.10.3. Matter-Antimatter Asymmetry
1.10.4. Supersymmetry, Strings and Extra Dimensions
1.10.5. Dark Matter and Energy

With this program, you will delve into the fundamentals of quantum electrodynamics and the solutions of the Dirac equation”