Nature News

Coherent spin state switch by Heisenberg alternate


Ekert, A. and Jozsa, R. Quantum calculation and Shor factorization algorithm. Rev. Mod. Phys. 68, 733-753 (1996).


Kimble, H. J. Quantum Web. Nature 453, 1023-1030 (2008).


Degen, C.L., Reinhard, F. & Cappellaro, P. Quantum Sensing. Rev. Mod. Phys. 89, 035002 (2017).


Knill, E. Quantum computing with lifelike and noisy gadgets. Nature 434, 39-44 (2005).


Ladd, T.D. et al. Quantum computer systems. Nature 464, 45-53 (2010).


Loss, D. & DiVincenzo, D.P. Quantum Computation with Quantum Dots. Phys. Rev. A 57, 120-126 (1998).


Kane, B. E. A nuclear spin quantum laptop based mostly on silicon. Nature 393, 133-137 (1998).


Yoneda, J. et al. Qubit of quantum dots with coherence restricted by a load noise and a constancy higher than 99.9%. Nat. Nanotechnol. 13, 102-106 (2018).


Chan, Ok.W. et al. Analysis of a qubit quantum spin qubit atmosphere in silicon by noise spectroscopy. Phys. Rev. Appl. 10, 044017 (2018).


Muhonen, J. T. et al. Quantify the constancy of the quantum grid of single-atom spin qubits in silicon by random comparative evaluation. J. Phys. Condens. Matter 27, 154205 (2015).


Huang, W. et al. Loyalty standards for two-qubit silicon doorways. Nature 569, 532-536 (2019).


Zajac, D.M., Hazard, T.M., Mi.X., Nielsen, E. and Petta, J. R. Evolutionary Grid Structure for Compact Strong-state Spin Qubits. Phys. Rev. Appl. 6, 054013 (2016).


Mortemousque, P.-A. et al. Coherent management of particular person electron spin in a two-dimensional array of quantum dots. Pre-print on (2018).


Mukhopadhyay, U., Dehollain, J.P., C. Reichl, Wegscheider, W. & Vandersypen, L.M.Ok. A 2 × 2 quantum dot community with controllable controllable tunnel couplings. Appl. Phys. Lett. 112, 183505 (2018).


Volk, C. et al. Loading a "Qubyte" register based mostly on quantum dots. npj Quantum Inf. 5, 29 (2019).


Mi, X. et al. A coherent spin – photon interface in silicon. Nature 555, 599-603 (2018).


Samkharadze, N. et al. Sturdy spin-photon coupling in silicon. Science 359, 1123-1127 (2018).


Landig, A.J. et al. Coherent spin – photon coupling with the help of a resonant alternate qubit. Nature 560, 179-184 (2018).


Mills, A. R. et al. Displacement of a single cost on a one-dimensional community of silicon quantum dots. Nat. Frequent. 10, 1063 (2019).


Fujita, T., Baart, T. A., C. Reichl, Wegscheider, W. & Vandersypen, L. M. Ok. Coherent shuttle of digital spin states. npj Quantum Inf. three, 22 (2017).


Flentje, H. et al. Constant long-range displacement of particular person electron spins. Nat. Frequent. eight, 501 (2017).


Nakajima, T. et al. Coherent switch of digital spin correlations assisted by the section shift of noise. Nat. Frequent. 9, 2133 (2018).


Baart, T. A. et al. Single spin CCD. Nat. Nanotechnol. 11, 330-334 (2016).


Greentree, A.D., Cole, J.H., Hamilton, A.R. and Hollenberg, L.C. L. Coherent digital switch in quantum dot methods utilizing an adiabatic go. Phys. Rev. B 70, 235317 (2004).


Shilton, J. M. et al. Transport of a single high-frequency electron in a quasi-one-dimensional GaAs channel induced by floor acoustic waves. J. Phys. Condens. Matter eight, 531-539 (1996).


Bertrand, B. et al. Quick spin data switch between distant quantum dots utilizing particular person electrons. Nat. Nanotechnol. 11, 672-676 (2016).


Baart, T.A., Fujita, T., Reichl, C., Wegscheider, W. & Vandersypen, L.M.Ok. Coherent spin alternate through a quantum mediator. Nat. Nanotechnol. 12, 26-30 (2017).


Malinowski, F. Ok. et al. Quick spin alternate on a multielectron mediator. Nat. Frequent. 10, 1196 (2019).


Aharonov, D. and Ben-Or, M. Fault tolerant quantum computation with fixed error. In Proc. Twenty-ninth Annual ACM Symposium on Pc Idea 176-188 (ACM Press, 1997).


Gottesman, D. Fault tolerant quantum computation with native gates. J. Mod. Choose. 47, 333-345 (2000).


Fowler, A.G., Hill, C.D. & Hollenberg, L.C.L. Correction of quantum error on nearest neighbor linear qubit networks. Phys. Rev. A 69, 042314 (2004).


Friesen, M., A. Biswas, Hu, X. & Lidar, D. Successfully intertwined at a number of charges by a spin bus. Phys. Rev. Lett. 98, 230503 (2007).


Petta, J. R. et al. Coherent manipulation of coupled electron spins in semiconductor quantum dots. Science 309, 2180-2184 (2005).


Angus, S.J., Ferguson, A., Dzurak, A.S. and Clark, R.G. Quantum dots outlined by Gate in intrinsic silicon. Nano Lett. 7, 2051-2055 (2007).


Zajac, D.M., Hazard, T.M., Mi, X., Wang, Ok. and Petta, J.R. Reconfigurable gate structure for Si / SiGe quantum dots. Appl. Phys. Lett. 106, 223507 (2015).


Nichol, J. M. et al. Deactivation of dynamic nuclear polarization by spin – orbit coupling in GaAs quantum dots. Nat. Frequent. 6, 7682 (2015).


Foletti, S., Bluhm, H., Mahalu D., Umansky, V. & Yacoby, A. Common quantum management of two-electron spin quantum bits utilizing dynamic nuclear polarization. Nat. Phys. 5, 903-908 (2009).


Taylor, J. M. et al. Rest, section shift and quantum management of digital spins in double quantum dots. Phys. Rev. B 76, 035315 (2007).


Shulman, M.D. et al. Elimination of qubit section shift with the help of a Hamiltonian estimation in actual time. Nat. Frequent. 5, 5156 (2014).


Bluhm, H., S. Foletti, D. Mahalu, Umansky, V. & Yacoby, A. Enhance the consistency of a spin bit by making it work as a suggestions loop controlling its nuclear spin bathtub. Phys. Rev. Lett. 105, 216803 (2010).


Barthel, C., Reilly, D.J., Marcus, C.M., Hanson, M.P. and Gossard, A.C .. Fast measurement of a single shot of a triplet qubit. Phys. Rev. Lett. 103, 160503 (2009).


Studenikin, S. et al. Improved cost detection of qubit spin playback through an intermediate state. Appl. Phys. Lett. 101, 233101 (2012).


Reed, M.D. et al. Decreased sensitivity to cost noise in semiconductor spin qubits through symmetrical operation. Phys. Rev. Lett. 116, 110402 (2016).


Martins, F. et al. Noise suppression utilizing symmetric alternate gates in spin qubits. Phys. Rev. Lett. 116, 116801 (2016).


Orona, L. A. et al. Singlet qubit studying – triplet with giant magnetic discipline gradients. Phys. Rev. B 98, 125404 (2018).


Wang, X. et al. Composite pulses for sturdy common management of singlet to triplet qubits. Nat. Frequent. three, 997 (2012).


Nichol, J.M., Orona, L.A., Harvey, S.P., Fallahi S., C.G., C.Manfra, M.J. & Yacoby, A. Excessive constancy entanglement grid for double quantum dot spin qubits. npj Quantum Inf. three, three (2017).


Sigillito, A.J., Gullans, M.J., Edge, L.F., Borselli, M. and Petta, J. R. Coherent switch of quantum data in silicon utilizing resonant SWAP gates. Preprint at (2019).

Leave a Reply

Your email address will not be published. Required fields are marked *