Phillip Dluhy scite author profile

Quantum memories capable of storing and retrieving coherent information for extended times at room temperature would enable a host of new technologies. Electron and nuclear spin qubits using shallow neutral donors in semiconductors have been studied extensively but are limited to low temperatures (≲10 kelvin); however, the nuclear spins of ionized donors have the potential for high-temperature operation. We used optical methods and dynamical decoupling to realize this potential for an ensemble of phosphorous-31 donors in isotopically purified silicon-28 and observed a room-temperature coherence time of over 39 minutes. We further showed that a coherent spin superposition can be cycled from 4.2 kelvin to room temperature and back, and we report a cryogenic coherence time of 3 hours in the same system.

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Switchable resonant hyperpolarization transfer toSi29spins in natural silicon

Dluhy

Salvail

Saeedi

et al. 2015

Phys. Rev. B

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Optical pumping and readout of bismuth hyperfine states in silicon for atomic clock applications

Saeedi

Szech

Dluhy

et al. 2015

Sci Rep

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The push for a semiconductor-based quantum information technology has renewed interest in the spin states and optical transitions of shallow donors in silicon, including the donor bound exciton transitions in the near-infrared and the Rydberg, or hydrogenic, transitions in the mid-infrared. The deepest group V donor in silicon, bismuth, has a large zero-field ground state hyperfine splitting, comparable to that of rubidium, upon which the now-ubiquitous rubidium atomic clock time standard is based. Here we show that the ground state hyperfine populations of bismuth can be read out using the mid-infrared Rydberg transitions, analogous to the optical readout of the rubidium ground state populations upon which rubidium clock technology is based. We further use these transitions to demonstrate strong population pumping by resonant excitation of the bound exciton transitions, suggesting several possible approaches to a solid-state atomic clock using bismuth in silicon, or eventually in enriched 28Si.

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Optically enabled magnetic resonance study ofAs75andSb121in
Salvail
¹
,
Dluhy
²
,
Morse
³

et al. 2015
Phys. Rev. B

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Zero-field optical magnetic resonance study of phosphorus donors in 28-silicon

et al. 2018

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Donor spins in silicon are some of the most promising qubits for upcoming solid-state quantum technologies. The nuclear spins of phosphorus donors in enriched silicon have among the longest coherence times of any solid-state system as well as simultaneous qubit initialization, manipulation and readout fidelities near ∼ 99.9%. Here we characterize the phosphorus in silicon system in the regime of "zero" magnetic field, where a singlet-triplet spin clock transition can be accessed, using laser spectroscopy and magnetic resonance methods. We show the system can be optically hyperpolarized and has ∼ 10 s Hahn echo coherence times, even at Earth's magnetic field and below.

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Phillip Dluhy

Room-Temperature Quantum Bit Storage Exceeding 39 Minutes Using Ionized Donors in Silicon-28

Switchable resonant hyperpolarization transfer toSi29spins in natural silicon

Optical pumping and readout of bismuth hyperfine states in silicon for atomic clock applications

Optically enabled magnetic resonance study ofAs75andSb121in
Salvail
¹
,
Dluhy
²
,
Morse
³

et al. 2015
Phys. Rev. B

Zero-field optical magnetic resonance study of phosphorus donors in 28-silicon

Contact Info

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Resources

About

Phillip Dluhy

Room-Temperature Quantum Bit Storage Exceeding 39 Minutes Using Ionized Donors in Silicon-28

Switchable resonant hyperpolarization transfer toSi29spins in natural silicon

Optical pumping and readout of bismuth hyperfine states in silicon for atomic clock applications

Optically enabled magnetic resonance study ofAs75andSb121inSalvail1, Dluhy2, Morse3 et al. 2015Phys. Rev. B

Zero-field optical magnetic resonance study of phosphorus donors in 28-silicon

Contact Info

Product

Resources

About

Optically enabled magnetic resonance study ofAs75andSb121in
Salvail
¹
,
Dluhy
²
,
Morse
³

et al. 2015
Phys. Rev. B