Microsoft Quantum – Santa Barbara (Station Q)

Microsoft Quantum – Santa Barbara (Station Q)

“Our lab combines researchers, theorists, and experimentalists from mathematics, physics, and
computer science, and we partner with academic and research institutions around the globe.”
– Michael Freedman, Technical Fellow, Microsoft Quantum Research

Microsoft Quantum – Santa Barbara (Station Q) is a Microsoft Research lab located on the campus of the University of California, Santa Barbara focused on studies of topological quantum computing. The lab combines researchers from mathematics, physics and computer science and collaborates with academic researchers both locally and around the world to understand how topological phases of matter can be used to build a robust, scalable quantum computing architecture. The group was founded by Dr. Michael Freedman, a renowned mathematician who has won the prestigious Fields Medal, the highest honor in mathematics, for his work on the topology of four-dimensional manifolds.

Our current work focuses on topological phases of matter, which are exotic states of matter formed at the lowest temperatures by strongly interacting quantum particles. The most prominent example of such a phase is the fractional quantum Hall effect discovered in the early 1980’s, but recent years have seen striking theoretical and experimental advances towards other topological phases that promise to be useful for quantum computation. The most prominent example are the celebrated Majorana zero modes, whose relevance to quantum computing was first realized by Alexei Kitaev (then at Microsoft Research) in 2001. Since 2012, overwhelming experimental evidence has been collected for their presence in certain one-dimensional superconductor-semiconductor heterostructures. For more details on these systems, see our background articles.

Topological quantum computation is a unique field where the connection from theory – both mathematics and theoretical physics – to experiments is very close, and researchers from different backgrounds can work hand in hand towards a common goal. Our work at Microsoft Quantum – Santa Barbara (Station Q) encompasses this whole range of research from the mathematical description and classification of these phases to guiding our experimental collaborators towards practical implementations of topological qubits.

For more details on our efforts to build a quantum computer together with collaborators around the world, see Microsoft Quantum Research.

The schedule for our weekly seminar can be found here:

Postdoc opportunities

Microsoft Quantum – Santa Barbara (Station Q) has postdoctoral positions available beginning in the summer/fall of 2018. We are seeking theorists with a strong background in quantum information in condensed matter, quantum Hall physics, topological insulators and superconductors, and/or computational condensed matter physics.

Application deadline: October 1, 2017

People

Publications

Overview Articles

Frank Wilczek
Majorana Returns
Nature Physics 5, 614 – 618 (2009)

Jason Alicea
New directions in the pursuit of Majorana fermions in solid state systems
Rep. Prog. Phys. 75, 076501 (2012)
http://dx.doi.org/10.1088/0034-4885/75/7/076501