Quantum Devices
Panagiotis Dimitrakis, Ioannis Sanakis, Georgios Mitrikas and Michalis Pissas
Description
After the successful completion of this course, the post-graduate students will be able:
- To understand the properties and operation of semiconducting quantum devices.
- To understand the principles of operation of superconducting devices
- To understand the Josephson effect
- To design and simulate Josephson junctions, squid devices and superconducting quantum circuits
- To understand the properties and operation of molecular magnets and organic molecules
- To understand and calculate spin operators and their time evolution
- To identify proper molecular spin systems for spin-based QC
After the successful completion of this course, the post-graduate students will be able:
- To understand the properties and operation of semiconducting quantum devices.
- To understand the principles of operation of superconducting devices
- To understand the Josephson effect
- To design and simulate Josephson junctions, squid devices and superconducting quantum circuits
- To understand the properties and operation of molecular magnets and organic molecules
- To understand and calculate spin operators and their time evolution
- To identify proper molecular spin systems for spin-based QC
After the successful completion of this course, the post-graduate students will be able:
- To understand the properties and operation of semiconducting quantum devices.
- To understand the principles of operation of superconducting devices
- To understand the Josephson effect
- To design and simulate Josephson junctions, squid devices and superconducting quantum circuits
- To understand the properties and operation of molecular magnets and organic molecules
- To understand and calculate spin operators and their time evolution
- To identify proper molecular spin systems for spin-based QC
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