Physically feasible three-level transitionless quantum driving with multiple Schrödinger dynamics
At a Glance
Section titled “At a Glance”| Metadata | Details |
|---|---|
| Publication Date | 2016-05-19 |
| Journal | Physical review. A/Physical review, A |
| Authors | Xue‐Ke Song, Qing Ai, Jing Qiu, Fu‐Guo Deng |
| Institutions | Beijing Normal University |
| Citations | 132 |
Abstract
Section titled “Abstract”Three-level quantum systems, which possess some unique characteristics beyond\ntwo-level ones, such as electromagnetically induced transparency, coherent\ntrapping, and Raman scatting, play important roles in solid-state quantum\ninformation processing. Here, we introduce an approach to implement the\nphysically feasible three-level transitionless quantum driving with multiple\nSchr\“{o}dinger dynamics (MSDs). It can be used to control accurately\npopulation transfer and entanglement generation for three-level quantum systems\nin a nonadiabatic way. Moreover, we propose an experimentally realizable hybrid\narchitecture, based on two nitrogen-vacancy-center ensembles coupled to a\ntransmission line resonator, to realize our transitionless scheme which\nrequires fewer physical resources and simple procedures, and it is more robust\nagainst environmental noises and control parameter variations than conventional\nadiabatic passage techniques. All these features inspire the further\napplication of MSDs on robust quantum information processing in experiment.\n
Tech Support
Section titled “Tech Support”Original Source
Section titled “Original Source”References
Section titled “References”- 2008 - Quantum Computing: A Short Course from Theory to Experiment