Superconducting quantum circuits

Quantum physics, also known as quantum mechanics, is a fundamental branch of physics that deals with the behavior of matter and energy that apply at the smallest scales of the universe. It provides a theoretical framework for understanding the behavior of particles at the quantum level, which is typically described as the behavior of particles at atomic and subatomic scales but quite surprisingly, it also describes the behavior of emergent degrees of freedom in macroscopic electrical circuits such as the ones that we study in our research. Quantum physics has been incredibly successful and has led to the development of numerous technologies, including transistors, lasers, and MRI machines. It has also opened up new frontiers in fields like quantum computing, quantum cryptography, and quantum teleportation, with the potential to revolutionize information processing and secure communication.

Superconducting quantum circuits are electrical microwave circuits made out of a capacitor, inductors and Josephson junctions that are operated in the quantum limit (high vacuum, extremely low temperature and isolation from electromagnetic noise). Cryogenic cooling systems, such as dilution refrigerators, are used to maintain these working conditions, allowing the superconducting materials to exhibit their unique properties. These circuits can be engineered at will to create artificial quantum systems that can be manipulated to perform quantum computations, quantum-limited amplifiers, or novel materials at the frontier of our understanding of physics.

• A qubit, short for "quantum bit", is the fundamental unit of information in quantum computing. It is the quantum analog of a classical bit (0 or 1) and serves as the building block for quantum computers. Unlike classical bits, which can only exist in one of two states (0 or 1), qubits can exist in a superposition of both states simultaneously, thanks to the principles of quantum mechanics. This superposition property is one of the key features that make quantum computing so powerful and different from classical computing.
• A quantum computer is a type of computer that uses qubits to perform calculations and solve problems. It leverages the principles of quantum mechanics to process and manipulate information in fundamentally different ways than classical computers by exploiting quantum superposition and entanglement. Quantum computers are believed to have the potential to outperform classical computers for certain specialized problems, particularly those involving complex simulations, cryptography, optimization, and searching large databases.

• CNRS (Centre National de la Recherche Scientifique) is the French National Center for Scientific Research. It is the largest fundamental research organization in France and one of the largest in Europe. CNRS is a public research institution that operates under the authority of the French Ministry of Higher Education, Research, and Innovation. Its mission is to conduct research across various scientific disciplines and promote scientific advancements.
• The Néel Institute (Institut Néel) is a CNRS research institute, specializing in condensed matter physics. It is located in Grenoble, France, and is named after the renowned French physicist Louis Néel, who was awarded the Nobel Prize in Physics in 1970 for his work on magnetism.

Working in quantum technologies can be an exciting and rewarding career path, as this field is at the forefront of scientific and technological advancements. Most careers in quantum technologies require at least a Master degree in a relevant field of science or engineering. Common fields include physics, electrical engineering, computer science, materials science, and quantum information science, see for instance the QIQE master.

Quantum technologies are an interdisciplinary field encompassing physics, nanofabrication, electronics, cryogeny, software development, so a diverse skill set and the ability to work across disciplines can be highly valuable.

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