High Coherence Qubit packaging

David P. Pappas; Xian Wu; Salvatore B. Olivadese; V. P. Adiga; Jared B. Hertzberg; Nicholas T. Bronn; Jerry M. Chow

High Coherence Qubit packaging

ORAL

Abstract

Development of sockets and associated interconnects for multi-qubit chips is presented. Considerations include thermalization, RF hygiene, non-magnetic environment, and self-alignment of the chips to allow for rapid testing, scalable integration, and high coherence operation. The sockets include wirebond free, vertical~ take-off launches with pogopins. This allows for high interconnectivity to non-trivial topology of qubits. Furthermore, vertical grounding is accomplished to reduce chip modes and suppress box modes. Low energy loss and high phase coherence is observed using this paradigm.

^*We acknowledge support from IARPA, LPS, and the NIST Quantum Based Metrology Initiative

March 14, 2017, 4:54 PM – March 14, 2017, 5:06 PM

Authors

David P. Pappas
- NIST - Boulder
Xian Wu
- National Institute of Standards and Technology
- NIST
- NIST - Boulder
Salvatore B. Olivadese
- IBM
V. P. Adiga
- IBM
Jared B. Hertzberg
- IBM TJ Watson Research Center
- IBM
Nicholas T. Bronn
- IBM T J Watson Research Center
- IBM T J Watson Res Ctr
- IBM
Jerry M. Chow
- IBM