Keyword Suggestions

Tutorial EM1.2 - Materials Science of Quantum Computing, Part 2 
November 27, 2016   8:30am - 12:00pm

Quantum computing promises to revolutionize information technology as we know it by changing the physical nature of the fundamental unit of information. However, the physical limitations to creating a quantum computer originate in our ability to manipulate and control the basic materials that comprise quantum computing devices. The tutorial provides an introduction to the relevant applied physics and the related material structures needed to create elementary quantum computing devices.
Part two of the tutorial will explore connections to actual material structures, their design, selection criteria, and means of fabrication for existing quantum information devices including:

- Ion trap qubits
- Silicon germanium donor qubits
- Silicon germanium quantum dot qubits
- Superconducting quantum circuit qubits

For each technology, relationships between decoherence measurements, interactions of the quantum state with materials and defects, and current understanding of the microscopic origins of materials defects will be presented. 

Average Rating: (No Ratings)
  Was great, surpassed expectations, and I would recommend this
  Was good, met expectations, and I would recommend this
  Was okay, met most expectations
  Was okay but did not meet expectations
  Was bad and I would not recommend this

Materials Science of Quantum Computing, Part 1
Memristive Materials and Neuromorphic Devices, Part 1
The Fundamentals, Advanced Fabrication Approaches, and Novel Applications of Functional Plasmonics, Part 1: Overview of the Physics and Development of Plasmonics
Grid-Scale Energy Storage: Materials, Manufacturing, and Systems Aspects, Part 1: Energy Storage and Future Grid
Formation of Advanced Metal Alloys via Ultrafast Laser-Driven Extreme States