Quantum Technology: Detectors and Networking MicroMasters
What you will learn:
- How to design and incorporate quantum detectors in various systems.
- Quantum networking and sensing technologies.
- Engineering challenges of quantum computation.
- How to formulate and apply basic quantum algorithms.
- How to analyze various quantum computing architectures.
Learn domain-specific quantum algorithms and how to run them on present-day quantum hardware. This course is part III of the series of Quantum computing courses, which covers aspects from fundamentals to present-day hardware platforms to quantum software and programming. The goal of part III is to discuss some of [...]
Learn about the science and engineering of future quantum networks whose security is guaranteed by laws of quantum physics. Applying exotic quantum properties such as entanglement to every-day applications such as communication and computation reveals new dimensions of such applications. Quantum encoding and entanglement distribution provide means to establish [...]
Learn how present-day material platforms are built to perform quantum information processing tasks. This course is part 2 of the series of Quantum computing courses, which covers aspects from fundamentals to present-day hardware platforms to quantum software and programming. The goal of part 2 is to provide the essential [...]
Learn the fundamental postulates of quantum mechanics and how they can be mapped onto present-day quantum information processing models, including computation, simulation, optimization, and machine learning.
Learn how to analyze and design quantum sensors and devices that extract maximal information from the world around us. Classical detectors and sensors are ubiquitous around us from heat sensors in cars to light detectors in a camera cell phone. Leveraging advances in the theory of noise and measurement, [...]