PhD Seminar
Exponentially faster antisymmetrization
Maria Kieferova
Maria Kieferova
Sandbo Chang
Designing control pulses to generate desired unitary evolution subjugated to experimental constraints (e.g., decoherence time, bandwidth) is a common task for quantum platforms, these type of problems are often addressed in the context of quantum optimal control. Parallel Automatic Differentiation Quantum Optimal Control (PADQOC) is an open-source, Python based general quantum optimal control solver built on top of Tensorflow 2. It is designed to be fast, extensible and useful for controlling general quantum systems.
Much of our intuition about light comes from our experience that light has very weak interaction with other light—a beam of light easily passes through another beam of light, so that the Star Wars scenes of “light sabers” bouncing off each other are just imaginary. But in solids, the properties of light can be changed dramatically, especially in solids that we design for new effects.
Maria Kieferova
In this presentation, physical properties and possible applications of carbon based nano electro-mechanical devices (NEMS) will be introduced. Our research started from carbon nanotube based nano electro-mechanical relay structure and expanded to graphene based xylophone and drum like devices. Micro contact transfer method is applied to realize the suspended nano structures with various electrodes under the nano materials.
The international Quantum Key Distribution (QKD) Summer School is a five-day program focused on theoretical and experimental aspects of quantum communication with a focus on quantum cryptography. Established in 2008, QKD occurs every other year and was last held in 2017.
Join us for our last session in the clarity in scientific writing series. During this session, we will apply the principles you have learned in order to improve the clarity and cohesion of your own writing. Please bring a sample of your writing (1-2 pages, double spaced), and be prepared to read, discuss, and revise!
A 3D topological insulator (TI) has a fully gapped insulating bulk state but a conducting surface. Such conducting “surface” states are formed with helical Dirac fermions, with spin-momentum strictly locked by spin-orbital coupling. When coupled to a conventional s-wave superconductor (S), the surface state behaves just like the desired p-wave superconductor. It has been predicted that Majorana zero-modes obeying non-Abelian statistics can appear in such a system.
Maryam Mirkamali