SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3204252191> ?p ?o ?g. }

Showing items 1 to 100 of ±184 with 100 items per page.

W3204252191 endingPage "400" @default.
W3204252191 startingPage "393" @default.
W3204252191 abstract "High concentration of negatively charged nitrogen-vacancy ($text{NV}^{-}$) centers was created in diamond single crystals containing approximately 100 ppm nitrogen using electron and neutron irradiation and subsequent thermal annealing in a stepwise manner. Continuous wave electron paramagnetic resonance (EPR) was used to determine the transformation efficiency from isolated N atoms to $text{NV}^{-}$ centers in each production step and its highest value was as high as 17.5 %. Charged vacancies are formed after electron irradiation as shown by EPR spectra, but the thermal annealing restores the sample quality as the defect signal diminishes. We find that about 25 % of the vacancies form NVs during the annealing process. The large $text{NV}^{-}$ concentration allows to observe orientation dependent spin-relaxation times and also the determination of the hyperfine and quadrupole coupling constants with high precision using electron spin echo (ESE) and electron-nuclear double resonance (ENDOR). We also observed the EPR signal associated with the so-called W16 centers, whose spectroscopic properties might imply a nitrogen dimer-vacancy center for its origin." @default.
W3204252191 created "2021-10-11" @default.
W3204252191 creator A5001513455 @default.
W3204252191 creator A5005684276 @default.
W3204252191 creator A5006708353 @default.
W3204252191 creator A5013565453 @default.
W3204252191 creator A5022478139 @default.
W3204252191 creator A5024412179 @default.
W3204252191 creator A5029976026 @default.
W3204252191 creator A5035081120 @default.
W3204252191 creator A5042494676 @default.
W3204252191 creator A5045477495 @default.
W3204252191 creator A5046912462 @default.
W3204252191 creator A5047034967 @default.
W3204252191 creator A5055924639 @default.
W3204252191 creator A5058716904 @default.
W3204252191 creator A5062745783 @default.
W3204252191 creator A5064900925 @default.
W3204252191 creator A5070850429 @default.
W3204252191 creator A5071282514 @default.
W3204252191 creator A5072682771 @default.
W3204252191 creator A5075281122 @default.
W3204252191 creator A5082015382 @default.
W3204252191 creator A5085380868 @default.
W3204252191 date "2022-03-01" @default.
W3204252191 modified "2023-10-02" @default.
W3204252191 title "Ultrahigh nitrogen-vacancy center concentration in diamond" @default.
W3204252191 cites W1889184373 @default.
W3204252191 cites W1972259822 @default.
W3204252191 cites W1980583020 @default.
W3204252191 cites W1983383923 @default.
W3204252191 cites W1984815980 @default.
W3204252191 cites W2001944187 @default.
W3204252191 cites W2005574154 @default.
W3204252191 cites W2009182698 @default.
W3204252191 cites W2011506746 @default.
W3204252191 cites W2022129127 @default.
W3204252191 cites W2026795484 @default.
W3204252191 cites W2030825366 @default.
W3204252191 cites W2032233059 @default.
W3204252191 cites W2032485784 @default.
W3204252191 cites W2049767388 @default.
W3204252191 cites W2051118914 @default.
W3204252191 cites W2055855286 @default.
W3204252191 cites W2058177236 @default.
W3204252191 cites W2061648590 @default.
W3204252191 cites W2063325978 @default.
W3204252191 cites W2071947777 @default.
W3204252191 cites W2073373640 @default.
W3204252191 cites W2077970749 @default.
W3204252191 cites W2080263174 @default.
W3204252191 cites W2094375774 @default.
W3204252191 cites W2104739343 @default.
W3204252191 cites W2123045575 @default.
W3204252191 cites W2131245179 @default.
W3204252191 cites W2156251466 @default.
W3204252191 cites W2158485710 @default.
W3204252191 cites W2159974629 @default.
W3204252191 cites W2194521454 @default.
W3204252191 cites W2297795564 @default.
W3204252191 cites W2324521257 @default.
W3204252191 cites W2526607653 @default.
W3204252191 cites W2540688686 @default.
W3204252191 cites W2608315834 @default.
W3204252191 cites W2756152197 @default.
W3204252191 cites W2767004880 @default.
W3204252191 cites W2888391427 @default.
W3204252191 cites W2901004550 @default.
W3204252191 cites W2939248136 @default.
W3204252191 cites W3037447387 @default.
W3204252191 cites W3050109390 @default.
W3204252191 cites W3082174879 @default.
W3204252191 cites W3106468973 @default.
W3204252191 doi "https://doi.org/10.1016/j.carbon.2021.12.032" @default.
W3204252191 hasPublicationYear "2022" @default.
W3204252191 type Work @default.
W3204252191 sameAs 3204252191 @default.
W3204252191 citedByCount "5" @default.
W3204252191 countsByYear W32042521912022 @default.
W3204252191 countsByYear W32042521912023 @default.
W3204252191 crossrefType "journal-article" @default.
W3204252191 hasAuthorship W3204252191A5001513455 @default.
W3204252191 hasAuthorship W3204252191A5005684276 @default.
W3204252191 hasAuthorship W3204252191A5006708353 @default.
W3204252191 hasAuthorship W3204252191A5013565453 @default.
W3204252191 hasAuthorship W3204252191A5022478139 @default.
W3204252191 hasAuthorship W3204252191A5024412179 @default.
W3204252191 hasAuthorship W3204252191A5029976026 @default.
W3204252191 hasAuthorship W3204252191A5035081120 @default.
W3204252191 hasAuthorship W3204252191A5042494676 @default.
W3204252191 hasAuthorship W3204252191A5045477495 @default.
W3204252191 hasAuthorship W3204252191A5046912462 @default.
W3204252191 hasAuthorship W3204252191A5047034967 @default.
W3204252191 hasAuthorship W3204252191A5055924639 @default.
W3204252191 hasAuthorship W3204252191A5058716904 @default.
W3204252191 hasAuthorship W3204252191A5062745783 @default.
W3204252191 hasAuthorship W3204252191A5064900925 @default.
W3204252191 hasAuthorship W3204252191A5070850429 @default.