This 100% online Postgraduate certificate will allow you to progress in Information and Quantum Computing, a branch of physics with a promising future”

In the 1980s, different theories began to be developed that pointed to the possibility of performing quantum computations. During those years, the progress made by Paul Benioff, Richard Feynman, David Deutsch, Dan Simon, Charles Benett and Lov Grover laid the foundations for the creation of quantum computers in the 1990s and at the beginning of the 21st century. Today, these advances have opened a wide range of possibilities for professionals who wish to advance their careers in this field.

That is why highly qualified profiles in Quantum Information and Quantum Computing are in demand by companies that move in this branch of physics, due to its benefits and applications to disciplines such as engineering, medicine or pharmacology. Considering this scenario of progress and the need for knowledge, TECH has created this Postgraduate certificate that offers intensive teaching in this area.

A 100% online program, where professionals in just 6 weeks will achieve a solid learning about the mathematical foundations which are essential to understand the quantum principles, as well as the concepts of measurements, time evolution, entanglement and their applications. In addition, during this period, students will delve into classical and quantum information up to the advances achieved in quantum computation.

This educational institution offers a high-level teaching format that can be accessed comfortably by the professionals whenever they wish, from any electronic device (computer, mobile or Tablet) with an Internet connection. A freedom which also allows you to take a program that is in line with the current times and compatible with the most demanding responsibilities.

Enroll now and access the most advanced knowledge about Quantum Computing and Simulation whenever you wish”

This Postgraduate certificate in Information and Quantum Computing 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 assignments
• Content that is accessible from any fixed or portable device with Internet connection

You have 150 hours of the most relevant information on Quantum Information and Quantum Computing. Take a step forward and enroll now”

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.

No in-person attendance, nor classes with fixed schedules. Thus, you will be able to gain the learning you are looking for about classical and quantum information"

Gain the most comprehensive knowledge on the RSA encryption method and its use for encrypting information"

The syllabus of this Postgraduate certificate has been designed with the main objective of offering professionals the most advanced knowledge in Quantum Information and Computing. Thus, in the 150 teaching hours of this program, you will learn the most relevant mathematical and quantum concepts, as well as all those theorems and theories that have given rise first to classical information and subsequently to quantum information. Thanks to the teaching tools used in this program, professionals will learn this subject in a much more dynamic way.

Multimedia material, with which you will gain a more enriching learning in the generation, propagation and detection of single photons, are available”

Module 1. Information and Quantum Computing

1.1. Introduction: Mathematics and Quantum

1.1.1. Complex Vector Spaces
1.1.2. Linear Operators
1.1.3. Scalar Products and Hilbert Spaces
1.1.4. Diagonalization
1.1.5. Tensor Product
1.1.6. The Role of Operators
1.1.7. Important Theorems on Operators
1.1.8. Checked Quantum Mechanics Postulates

1.2. Statistical States and Samples

1.2.1. The Qubit
1.2.2. Density Matrix
1.2.3. Two-Part System
1.2.4. Schmidt Decomposition
1.2.5. Statistical Interpretation of the Mixing States

1.3. Measurements and Temporary Evolution

1.3.1. Von Neumann Measurements
1.3.2. Generalized Measurements
1.3.3. Neumark Theorem
1.3.4. Quantum Channels

1.4. Interwoven and its Applications

1.4.1. ERP States
1.4.2. Dense Coding
1.4.3. State Teleportation
1.4.4. Density Matrix and its Representations 

1.5. Classic and Quantum Information

1.5.1. Introduction to Probability
1.5.2. Information
1.5.3. Shannon Entropy and Mutual Information
1.5.4. Communication

1.5.4.1. The Bynary Symmettric Channel
1.5.4.2. Channel Capacity

1.5.5. Shannon Theorems
1.5.6. Difference between Classic and Quantum Information
1.5.7. Von Neumann Entropy
1.5.8. Schumacher Theorem
1.5.9. Holevo Information
1.5.10. Accessible Information and Holevo Limit

1.6. Quantum Computing

1.6.1. Turing Machines
1.6.2. Circuits and Classification of Complexity
1.6.3. Quantum Computer
1.6.4. Quantum Logic Gates
1.6.5. Deutsch-Josza and Simon´s Algorithm
1.6.6. Unstructured Search; Grover´s Algorithm
1.6.7. RSA Encryption Method
1.6.8. Factorization: Shor Algorithm

1.7. Quantum Theory of the Light-Matter Interaction

1.7.1. Two-Level Atom
1.7.2. AC-Stark Splitting
1.7.3. Rabi Oscillations
1.7.4. Light Dipole Force

1.8. Quantum Theory of the Light-Matter Interaction

1.8.1. Quantum States of the Electromagnetic Field
1.8.2. Jaynes-Cummings Model
1.8.3. The Problem of Decoherence
1.8.4. Treatment of Weisskopf-Wigner Model of Spontaneous Emission

1.9. Quantum Communication

1.9.1. Quantum Cryptography: BB84 and Ekert91 protocols
1.9.2. Bell Inequalities
1.9.3. Generation of Individual Photons
1.9.4. Propagation of Individual Photons
1.9.5. Detection of Individual Photons

1.10. Quantum Computing and Simulation

1.10.1. Neutral Atoms in Dipolar Traps
1.10.2. Cavity Quantum Electrodynamics
1.10.3. Ions in Paul Tramps
1.10.4. Superconducting Cubits

With this program, you will comfortably learn the Classical and Quantum Theories of light-matter interaction from your computer with Internet connection"