Talks

Faster Pulse Sequences for Performing Arbitrary Rotations in Singlet-Triplet Qubits

Robert Throckmorton - CMTC and JQI

Friday, April 21, 2017, 12:15-1:15 pm

You are subscribed to this talk through .
You are watching this talk through .
You are subscribed to this talk. (unsubscribe, watch)
You are watching this talk. (unwatch, subscribe)
You are not subscribed to this talk. (watch, subscribe)

Abstract

We present new composite pulse sequences for performing arbitrary rotations in singlet-triplet qubits that are faster than existing sequences. We consider two sequences for performing a z rotation, one that generalizes the Hadamard-x-Hadamard sequence, and another that generalizes a sequence by Guy Ramon (G. Ramon, Phys. Rev. B 84, 155329 (2011)). We determine the time required to perform each sequence, and find that our "generalized Hadamard-x-Hadamard" sequence can always be made faster than the "generalized Ramon sequence". We then present similar sequences for performing x rotations, one that generalizes the Hadamard-z-Hadamard sequence and another that is based on Ramon's z rotation sequence. In this case, we find that the "Ramon-like" sequence is faster. We also present sequences for performing other rotations. We then find versions of these sequences dynamically corrected for noise-induced errors using SUPCODE (X. Wang et. al., PRA 89, 022310 (2014)).

Reference: C. Zhang, RET, X-C. Yang, X. Wang, E. Barnes, and S. Das Sarma, arXiv:1701.03796 (submitted to PRL), plus currently unpublished work.

This talk is organized by Javiera Caceres