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Why are there intrinsic probabilities for quantum event and how we get them from the quantum formalism? How do we describe quantum systems and how do we deal with their physical properties?
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Welcome to Quantum Mechanics II
In the second introductory course, we explore further two-qubit state space and entanglement. The concept of indistinguishability of fundamental particles are also discussed.
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Impossible Machines in Quantum Mechanics
In this course, we talk about four quantum machines that are impossible to build. We give a simple proof to one of them and show how they other three can be proven by induction.
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Introduction to Quantum Information
This course is to communicate a basic understanding of the key concepts in quantum information and computing, to understand how these concepts come about and their consequences.
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Introduction to Quantum Computing
In this course, we introduce basic notions of quantum computing. Single-qubit and two-qubit gates are studied in details, followed by Deutsch, Deutsch-Jozsa, and Grover algorithms and teleportation.
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Introduction to Quantum Phase Transition
In this course, beginning with a brief recap of thermal phase transition, we explain what is a quantum phase transition. We then illustrate the concept with an example of a linear chain of particles.
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Quantum Error Correction
This is a course on introduction to quantum error correction.
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Quantum computing with Qibo: Basic matters
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