Preliminary Exam |
Events During the Week of December 11th through December 18th, 2022
Monday, December 12th, 2022
- Superconductor-semiconductor hybrid systems for quantum computing applications
- Time: 10:00 am
- Place: B343 Sterling
- Speaker: Ben Harpt, Physics Graduate Student
- Abstract: In the global pursuit to develop quantum computers with unprecedented problem-solving capabilities, success hinges upon engineering platforms that are both controllable and scalable. Superconductors and semiconductors are, individually, among the most promising materials platforms for building a solid-state quantum processor. However, combing the advantages of both materials to build hybrid quantum devices unlocks yet further potential. In this talk, I overview the physics of ‘super-semi’ hybrid systems and discuss how it forms a basis for new technologies in quantum computing. I focus in detail on two diverse applications which are the primary focus of my doctoral research: (1) superconducting resonators used for readout of quantum dot qubits; and (2) qubits formed from Josephson junctions in proximitized germanium heterostructures. In the former example, I show completed work identifying and utilizing a little-known coupling mechanism between the qubit and the resonator. In the latter, I demonstrate early progress toward developing devices and outline a pathway for future research. Studying these and other super-semi hybrid systems offers fruitful new physics and technologies for scaling up quantum computers.
- Host: Mark Eriksson
Tuesday, December 13th, 2022
- Portal Matter, Kinetic Mixing, and Muon g − 2
- Time: 10:00 am
- Place: 5280 Chamberlin
- Speaker: Ricardo Alexandre Dos Santos Ximenes Filho, Physics Graduate Student
- Abstract: We present a minimal toy model construction using leptonic portal matter that addresses the muon g − 2 anomaly through chiral enhancement. While the chiral enhancement mechanism is reminiscent of fermiophobic Z′ gauge models, the parameter space motivated by the kinetic mixing/vector portal dark matter model paradigm is vastly different and readily available to be explored in current and forthcoming experiments. We further explore a detailed realization of this construction that utilizes a SU(2)xSU(2) dark gauge group, that is broken first to a conserved dark U(1) by a Higgs bi-doublet and the dark U(1) is then further broken by a pair of triplet Higgs fields to yield the sub-GeV dark photon.
- Host: Lisa Everett
Wednesday, December 14th, 2022
- No events scheduled
Thursday, December 15th, 2022
- No events scheduled
Friday, December 16th, 2022
- No events scheduled