The Experts below are selected from a list of 7788 Experts worldwide ranked by ideXlab platform
Kiyotaka Miura - One of the best experts on this subject based on the ideXlab platform.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
Torataro Kurita - One of the best experts on this subject based on the ideXlab platform.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
Masahiro Shimizu - One of the best experts on this subject based on the ideXlab platform.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
Yasuhiko Shimotsuma - One of the best experts on this subject based on the ideXlab platform.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
Nobuya Mineyuki - One of the best experts on this subject based on the ideXlab platform.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.
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efficient generation of nitrogen vacancy center inside diamond with shortening of laser pulse duration
Applied Physics Letters, 2018Co-Authors: Torataro Kurita, Nobuya Mineyuki, Masanori Fujiwara, Norikazu Mizuochi, Masahiro Shimizu, Yasuhiko Shimotsuma, Kiyotaka MiuraAbstract:We investigated the effect of laser pulse duration on nitrogen-vacancy (NV) center generation inside a single crystal diamond. We compared pulse durations of 40 fs (femtosecond laser) and 1 ps (picosecond laser). We found that in both cases, ensemble NV centers could be generated inside the diamond. However, the maximum photoluminescence intensity of the NV center without Graphitization for the 40 fs duration was higher than that for the 1 ps duration. This indicated that the femtosecond laser was harder to graphitize diamond and could generate more NV centers without Graphitization. This difference may be due to the difference in the photo-absorption process and the resulting lattice dynamics.