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First proposed in the 1970s, quantum computing relies on quantum physics by taking advantage of certain quantum physics properties of atoms or nuclei that allow them to work together as quantum bits, or qubits, to be the computer's processor and memory. By interacting with each other while being isolated from the external environment, qubits can perform certain calculations exponentially faster than conventional computers.
Learn more about quantum dots from the many resources on this site, listed below. More information on Quantum computing can be found here.
Benjamin A Zerbe
May 26 2017
Building a Quantum Computer 101
Equipment, Techniques, and Growth of Ultra-High Purity AlGaAs-GaAs Heterostructures by Molecular Beam Epitaxy
26 May 2017 | | Contributor(s):: Geoff Gardner
In this talk I detail research and investigation into critical equipment and materials engineering issues related to the quality of the fabricated 2DEG systems. I also will present data that demonstrates the critical role gallium purity plays in 2DEG mobility.
Adam Marc Munder
Nikhil Chand Kashyap Chitta
Atomistic Modeling of Nano Devices: From Qubits to Transistors
13 Apr 2016 | | Contributor(s):: Rajib Rahman
In this talk, I will describe such a framework that can capture complex interactions ranging from exchange and spin-orbit-valley coupling in spin qubits to non-equilibrium charge transport in tunneling transistors. I will show how atomistic full configuration interaction calculations of exchange...
Oxide Systems – An Answer to the Qubit Problem?
08 Mar 2016 | | Contributor(s):: Sudhakar Yarlagadda
One can produce new oxide-based devices by exploiting their tunability, rich physics, and coupling between the various degrees of freedom (such as charge, lattice, spin, etc.). We propose that oxide-based double quantum dots with only one electron (tunneling between the dots) can be regarded as...
Photonic Quantum Computation & Quantum Simulation
11 Feb 2016 | | Contributor(s):: Philip Walther
The advantages of the photons makes optical quantum system ideally suited for fundamental quantum physics experiments and a variety of applications in quantum information processing. Here I will briefly review privacy-preserving photonic quantum cloud computing, where quantum information is...
Quantum Control of Light and Matter International Workshop
14 Oct 2015 | | Contributor(s):: Vladimir M. Shalaev, Chris H Greene
This kickoff workshop brings together world-class experts specializing in diverse areas such as Quantum Information & Computing, Quantum Nanophotonics & Metamaterials, as well as Quantum aspects of Atomic and Molecular Optics and Atom-like Solid State Systems.
Progress in Superconducting Qubits
04 May 2015 | | Contributor(s):: Robert F. McDermott
I will review progress in the field, with a focus on recent work in Wisconsin in the areas of decoherence and quantum measurement. I will discuss efforts to identify and suppress the dominant source of qubit dephasing, and I will describe a new approach to scalable, high-fidelity qubit...
Towards Light-Spin Interface for NV Center in Diamond
17 Mar 2015 | | Contributor(s):: Alexey V Akimov
In this work we present our efforts on using CMOS compatible hyperbolic metamaterials and optical fibers to construct efficient single-photon sources and sensing elements using NV center in diamond.
Thien Minh Nguyen
Which are the best universities in the world for doing MS+PhD in the field of Nanoelectronics based experimental quantum computing?
Open | Responses: 0
sachin kumar T P
Chirag Jayant Patil