Design and performance of an oversized-sample  35&thinsp;GHz EPR resonator with an elevated <i>Q</i> value

Fischer, Jörg Wolfgang Anselm; Stropp, Julian; Tschaggelar, René; Oberhänsli, Oliver; Alaniva, Nicholas; Inoue, Mariko; Mashima, Kazushi; Barnes, Alexander Benjamin; Jeschke, Gunnar; Klose, Daniel

doi:10.5194/mr-5-143-2024

Articles | Volume 5, issue 2

https://doi.org/10.5194/mr-5-143-2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/mr-5-143-2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 5, issue 2

Research article

|

20 Sep 2024

Research article |

| 20 Sep 2024

Design and performance of an oversized-sample 35 GHz EPR resonator with an elevated Q value

Jörg Wolfgang Anselm Fischer, Julian Stropp, René Tschaggelar, Oliver Oberhänsli, Nicholas Alaniva, Mariko Inoue, Kazushi Mashima, Alexander Benjamin Barnes, Gunnar Jeschke, and Daniel Klose

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Sep 2024	109	29	28	166
Oct 2024	67	7	66	140
Nov 2024	199	10	50	259
Dec 2024	38	10	51	99
Jan 2025	29	12	39	80
Feb 2025	26	16	0	42
Mar 2025	29	18	0	47
Apr 2025	28	27	3	58
May 2025	48	12	1	61
Jun 2025	80	37	1	118
Jul 2025	51	14	0	65
Aug 2025	70	24	0	94
Sep 2025	68	26	0	94
Oct 2025	105	35	2	142
Nov 2025	159	49	2	210
Dec 2025	102	39	10	151
Jan 2026	188	40	17	245
Feb 2026	130	30	9	169
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Apr 2026	82	58	4	144
May 2026	21	16	0	37

Cumulative views and downloads (calculated since 07 May 2024)

Month	HTML	PDF	XML	Total
May 2024	212	74	11	297
Jun 2024	124	20	7	151
Jul 2024	59	12	3	74
Aug 2024	63	16	1	80
Sep 2024	109	29	28	166
Oct 2024	67	7	66	140
Nov 2024	199	10	50	259
Dec 2024	38	10	51	99
Jan 2025	29	12	39	80
Feb 2025	26	16	0	42
Mar 2025	29	18	0	47
Apr 2025	28	27	3	58
May 2025	48	12	1	61
Jun 2025	80	37	1	118
Jul 2025	51	14	0	65
Aug 2025	70	24	0	94
Sep 2025	68	26	0	94
Oct 2025	105	35	2	142
Nov 2025	159	49	2	210
Dec 2025	102	39	10	151
Jan 2026	188	40	17	245
Feb 2026	130	30	9	169
Mar 2026	78	19	4	101
Apr 2026	82	58	4	144
May 2026	21	16	0	37

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Short summary

We show the design, simulations, and experimental performance of a 35 GHz electron paramagnetic resonance (EPR) resonator based on a cylindrical cavity with 3 mm sample access. The design is robust; simple to manufacture and maintain; and, with its elevated Q value, well-suited to sensitive EPR experiments using continuous-wave or low-power pulsed excitation. Thus, we make multi-frequency EPR spectroscopy, a powerful approach to deconvolute overlapping paramagnetic species, more accessible.