Coherent manipulation of electron spins in the (Cu 3) spin triangle complex impregnated in nanoporous silicon

K. Y. Choi; Z. Wang; H. Nojiri; J. Van Tol; P. Kumar; P. Lemmens; B. S. Bassil; U. Kortz; N. S. Dalal

doi:10.1103/PhysRevLett.108.067206

Coherent manipulation of electron spins in the (Cu ₃) spin triangle complex impregnated in nanoporous silicon

K. Y. Choi, Z. Wang, H. Nojiri, J. Van Tol, P. Kumar, P. Lemmens, B. S. Bassil, U. Kortz, N. S. Dalal

IMR - Institute for Materials Research (institute affiliation only)

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

We report on coherent manipulation of electron spins in an antiferromagnetically coupled spin triangle (Cu ₃-X) (X=As, Sb) impregnated in freestanding nanoporous silicon (NS) by using 240 GHz microwave pulses. Rabi oscillations are observed and the spin coherence time is found to be T ₂=1066ns at 1.5 K. This demonstrates that the (Cu ₃-X):NS hybrid material provides a promising scheme for implementing spin-based quantum gates. By measuring the spin relaxation times of samples with different symmetries and environments we give evidence that a spin chirality is the main decoherence source of spin triangle molecules.

Original language	English
Article number	067206
Journal	Physical Review Letters
Volume	108
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevLett.108.067206
Publication status	Published - 2012 Feb 10

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abstract = "We report on coherent manipulation of electron spins in an antiferromagnetically coupled spin triangle (Cu 3-X) (X=As, Sb) impregnated in freestanding nanoporous silicon (NS) by using 240 GHz microwave pulses. Rabi oscillations are observed and the spin coherence time is found to be T 2=1066ns at 1.5 K. This demonstrates that the (Cu 3-X):NS hybrid material provides a promising scheme for implementing spin-based quantum gates. By measuring the spin relaxation times of samples with different symmetries and environments we give evidence that a spin chirality is the main decoherence source of spin triangle molecules.",

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AU - Choi, K. Y.

AU - Wang, Z.

AU - Nojiri, H.

AU - Van Tol, J.

AU - Kumar, P.

AU - Lemmens, P.

AU - Bassil, B. S.

AU - Kortz, U.

AU - Dalal, N. S.

PY - 2012/2/10

Y1 - 2012/2/10

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AB - We report on coherent manipulation of electron spins in an antiferromagnetically coupled spin triangle (Cu 3-X) (X=As, Sb) impregnated in freestanding nanoporous silicon (NS) by using 240 GHz microwave pulses. Rabi oscillations are observed and the spin coherence time is found to be T 2=1066ns at 1.5 K. This demonstrates that the (Cu 3-X):NS hybrid material provides a promising scheme for implementing spin-based quantum gates. By measuring the spin relaxation times of samples with different symmetries and environments we give evidence that a spin chirality is the main decoherence source of spin triangle molecules.

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Coherent manipulation of electron spins in the (Cu ₃) spin triangle complex impregnated in nanoporous silicon

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