Optical detection of magnetic resonance

Suter, Dieter

doi:https://doi.org/10.5194/mr-1-115-2020

Articles | Volume 1, issue 1

https://doi.org/10.5194/mr-1-115-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/mr-1-115-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 1, issue 1

Review article

|

30 Jun 2020

Review article |

| 30 Jun 2020

Optical detection of magnetic resonance

Dieter Suter

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Total article views: 3,114 (including HTML, PDF, and XML)

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1,685	1,377	52	3,114	52	51

HTML: 1,685
PDF: 1,377
XML: 52
Total: 3,114
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EndNote: 51

Views and downloads (calculated since 27 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	71	38	3	112
May 2020	111	58	3	172
Jun 2020	72	19	1	92
Jul 2020	84	41	3	128
Aug 2020	59	31	3	93
Sep 2020	30	6	0	36
Oct 2020	15	6	0	21
Nov 2020	17	13	1	31
Dec 2020	22	10	0	32
Jan 2021	32	21	0	53
Feb 2021	19	10	0	29
Mar 2021	32	20	2	54
Apr 2021	17	10	0	27
May 2021	30	17	2	49
Jun 2021	29	10	2	41
Jul 2021	9	12	0	21
Aug 2021	18	12	1	31
Sep 2021	26	24	2	52
Oct 2021	15	51	3	69
Nov 2021	35	51	3	89
Dec 2021	20	31	0	51
Jan 2022	15	28	0	43
Feb 2022	25	28	2	55
Mar 2022	23	33	2	58
Apr 2022	17	15	1	33
May 2022	9	31	1	41
Jun 2022	14	16	0	30
Jul 2022	21	18	0	39
Aug 2022	33	22	0	55
Sep 2022	63	26	0	89
Oct 2022	14	15	1	30
Nov 2022	18	25	0	43
Dec 2022	21	27	0	48
Jan 2023	22	27	1	50
Feb 2023	24	33	0	57
Mar 2023	16	20	0	36
Apr 2023	15	33	0	48
May 2023	32	38	1	71
Jun 2023	23	23	1	47
Jul 2023	15	35	2	52
Aug 2023	22	43	1	66
Sep 2023	27	37	0	64
Oct 2023	24	32	2	58
Nov 2023	18	15	0	33
Dec 2023	38	18	0	56
Jan 2024	42	21	0	63
Feb 2024	26	65	0	91
Mar 2024	63	41	0	104
Apr 2024	60	21	2	83
May 2024	67	24	2	93
Jun 2024	64	46	3	113
Jul 2024	51	30	1	82

Cumulative views and downloads (calculated since 27 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	71	38	3	112
May 2020	111	58	3	172
Jun 2020	72	19	1	92
Jul 2020	84	41	3	128
Aug 2020	59	31	3	93
Sep 2020	30	6	0	36
Oct 2020	15	6	0	21
Nov 2020	17	13	1	31
Dec 2020	22	10	0	32
Jan 2021	32	21	0	53
Feb 2021	19	10	0	29
Mar 2021	32	20	2	54
Apr 2021	17	10	0	27
May 2021	30	17	2	49
Jun 2021	29	10	2	41
Jul 2021	9	12	0	21
Aug 2021	18	12	1	31
Sep 2021	26	24	2	52
Oct 2021	15	51	3	69
Nov 2021	35	51	3	89
Dec 2021	20	31	0	51
Jan 2022	15	28	0	43
Feb 2022	25	28	2	55
Mar 2022	23	33	2	58
Apr 2022	17	15	1	33
May 2022	9	31	1	41
Jun 2022	14	16	0	30
Jul 2022	21	18	0	39
Aug 2022	33	22	0	55
Sep 2022	63	26	0	89
Oct 2022	14	15	1	30
Nov 2022	18	25	0	43
Dec 2022	21	27	0	48
Jan 2023	22	27	1	50
Feb 2023	24	33	0	57
Mar 2023	16	20	0	36
Apr 2023	15	33	0	48
May 2023	32	38	1	71
Jun 2023	23	23	1	47
Jul 2023	15	35	2	52
Aug 2023	22	43	1	66
Sep 2023	27	37	0	64
Oct 2023	24	32	2	58
Nov 2023	18	15	0	33
Dec 2023	38	18	0	56
Jan 2024	42	21	0	63
Feb 2024	26	65	0	91
Mar 2024	63	41	0	104
Apr 2024	60	21	2	83
May 2024	67	24	2	93
Jun 2024	64	46	3	113
Jul 2024	51	30	1	82

Viewed (geographical distribution)

Total article views: 3,114 (including HTML, PDF, and XML) Thereof 2,905 with geography defined and 209 with unknown origin.

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1

1

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Latest update: 26 Jul 2024

Short summary

The combination of magnetic resonance with laser spectroscopy provides some interesting options for increasing the sensitivity and information content of magnetic resonance by many orders of magnitude. This review covers the basic physics behind the relevant processes, such as angular momentum conservation during absorption and emission.

Optical detection of magnetic resonance

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Cited

17 citations as recorded by crossref.

17 citations as recorded by crossref.


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