The University of Wisconsin-Madison has emerged as a world leader in the area of quantum devices, with three cutting edge experimental efforts focused on different quantum device implementations. The Wisconsin Institute for Quantum Information (WIQI) brings together experimental and theoretical research from across campus in the following areas: Superconducting integrated circuits incorporating Josephson junctions act as “artificial atoms” with energy level separations in the microwave range. One of the remarkable recent discoveries in information science is that quantum mechanics can lead to efficient solutions for problems that are intractable on conventional classical computers. Image reproduced with permission from “Quantum control and process tomography of a semiconductor quantum dot hybrid qubit.” Dohun Kim, Zhan Shi, C. The realization of a practical quantum computer will require the development of fundamentally new quantum hardware: circuits whose operation is intrinsically quantum mechanical, designed for the high-fidelity generation and preservation of delicate entangled states. To do so, we use model fluids, having only one non-Newtonian property at a time.
En particulier, nous avons mené une étude systématique de la relation entre les propriétés rhéologiques de fluides non-newtoniens et la formation de motif, en cellule de Hele-Shaw.
Hi Evangelos, I had no idea there was such a thing as "Saffman Mei Lift Force" in Open FOAM...
But if you can provide an example case, something simple based on one of Open FOAM's tutorials, in which this dictionary can be used, then it should be pretty simple to reverse engineer it!
Realization of improved large-scale superconducting quantum circuits will require a thorough understanding of qubit dephasing, along with development of technologies for scalable qubit measurement and control.
The image shows a near-quantum limited linear amplifier based on the SLUG for scalable superconducting qubit readout.