Coherent Control of Rydberg States in Silicon

P. T. Greenland (1); S. A. Lynch (1); A. F. G. van der Meer (2); B. N.; Murdin (3); C. R. Pidgeon (4); B. Redlich (2) N. Q. Vinh (2); G. Aeppli (1); ((1) London Centre for Nanotechnology UCL UK; (2) FOM Institute for Plasma; Physics The Netherlands; (3) University of Surrey UK; (4) Heriot-Watt; University Scotland)

arXiv:1008.3820·cond-mat.other·August 24, 2010

Coherent Control of Rydberg States in Silicon

P. T. Greenland (1), S. A. Lynch (1), A. F. G. van der Meer (2), B. N., Murdin (3), C. R. Pidgeon (4), B. Redlich (2) N. Q. Vinh (2), G. Aeppli (1), ((1) London Centre for Nanotechnology UCL UK, (2) FOM Institute for Plasma, Physics The Netherlands, (3) University of Surrey UK

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TL;DR

This paper demonstrates the coherent manipulation of donor electron states in silicon using photon echoes and Rabi oscillations, advancing quantum control techniques in silicon-based quantum systems.

Contribution

It introduces a method to coherently control Rydberg states in silicon donors using a free electron laser, which is a novel approach in this context.

Findings

01

Observation of photon echoes in silicon donors

02

Demonstration of Rabi oscillations between donor states

03

Advancement in quantum control of silicon-based qubits

Abstract

We demonstrate coherent control of donor wavefunctions in phosphorous-doped silicon. Our experiments take advantage of a free electron laser to stimulate and observe photon echoes from, and Rabi oscillations between the ground and first excited state of P donors in Si.

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