Daniel J Twitchen
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Explore the profile of Daniel J Twitchen including associated specialties, affiliations and a list of published articles.
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11
Citations
176
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Recent Articles
1.
Suntornwipat N, Majdi S, Gabrysch M, Kovi K, Djurberg V, Friel I, et al.
Nano Lett
. 2020 Dec;
21(1):868-874.
PMID: 33337898
The valley degree of freedom in many-valley semiconductors provides a new paradigm for storing and processing information in valleytronic and quantum-computing applications. Achieving practical devices requires all-electric control of long-lived...
2.
Dominguez-Andrade H, Anaya J, Croot A, Cattelan M, Twitchen D, Kuball M, et al.
ACS Appl Mater Interfaces
. 2020 May;
12(23):26534-26542.
PMID: 32463648
Thermionic emission relies on the low work function and negative electron affinity of the, often functionalized, surface of the emitting material. However, there is little understanding of the interplay between...
3.
Jones D, Kumar S, Lanigan P, McGuinness C, Dale M, Twitchen D, et al.
Methods Appl Fluoresc
. 2019 Oct;
8(1):014004.
PMID: 31622965
We report a multidimensional luminescence microscope providing hyperspectral imaging and time-resolved (luminescence lifetime) imaging for the study of luminescent diamond defects. The instrument includes crossed-polariser white light transmission microscopy to...
4.
Rose B, Huang D, Zhang Z, Stevenson P, Tyryshkin A, Sangtawesin S, et al.
Science
. 2018 Jul;
361(6397):60-63.
PMID: 29976820
Engineering coherent systems is a central goal of quantum science. Color centers in diamond are a promising approach, with the potential to combine the coherence of atoms with the scalability...
5.
Humphreys P, Kalb N, Morits J, Schouten R, Vermeulen R, Twitchen D, et al.
Nature
. 2018 Jun;
562(7725):E2.
PMID: 29946170
Change history: In this Letter, the received date should be 20 December 2017, instead of 27 April 2018. This has been corrected online.
6.
Humphreys P, Kalb N, Morits J, Schouten R, Vermeulen R, Twitchen D, et al.
Nature
. 2018 Jun;
558(7709):268-273.
PMID: 29899475
Large-scale quantum networks promise to enable secure communication, distributed quantum computing, enhanced sensing and fundamental tests of quantum mechanics through the distribution of entanglement across nodes. Moving beyond current two-node...
7.
Li L, Chen E, Zheng J, Mouradian S, Dolde F, Schroder T, et al.
Nano Lett
. 2015 Feb;
15(3):1493-7.
PMID: 25714414
Efficient collection of the broadband fluorescence from the diamond nitrogen vacancy (NV) center is essential for a range of applications in sensing, on-demand single photon generation, and quantum information processing....
8.
Li L, Schroder T, Chen E, Walsh M, Bayn I, Goldstein J, et al.
Nat Commun
. 2015 Jan;
6:6173.
PMID: 25629223
A central aim of quantum information processing is the efficient entanglement of multiple stationary quantum memories via photons. Among solid-state systems, the nitrogen-vacancy centre in diamond has emerged as an...
9.
Isberg J, Gabrysch M, Hammersberg J, Majdi S, Kovi K, Twitchen D
Nat Mater
. 2013 Jul;
12(8):760-4.
PMID: 23852401
Standard electronic devices encode bits of information by controlling the amount of electric charge in the circuits. Alternatively, it is possible to make devices that rely on other properties of...
10.
George R, Robledo L, Maroney O, Blok M, Bernien H, Markham M, et al.
Proc Natl Acad Sci U S A
. 2013 Feb;
110(10):3777-81.
PMID: 23412336
One of the most striking features of quantum mechanics is the profound effect exerted by measurements alone. Sophisticated quantum control is now available in several experimental systems, exposing discrepancies between...