Tesseract – a high-stability, low-noise fluxgate sensor  designed for constellation applications

Greene, Kenton; Hansen, Christian; Narod, B. Barry; Dvorsky, Richard; Miles, David M.

doi:10.5194/gi-11-307-2022

Articles | Volume 11, issue 2

https://doi.org/10.5194/gi-11-307-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/gi-11-307-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 11, issue 2

Research article

|

23 Aug 2022

Research article |

| 23 Aug 2022

Tesseract – a high-stability, low-noise fluxgate sensor designed for constellation applications

Kenton Greene, Christian Hansen, B. Barry Narod, Richard Dvorsky, and David M. Miles

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Total article views: 4,442 (including HTML, PDF, and XML)

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XML: 140
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Views and downloads (calculated since 25 Apr 2022)

Month	HTML	PDF	XML	Total
Apr 2022	58	17	7	82
May 2022	75	27	2	104
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Jul 2022	28	21	0	49
Aug 2022	165	36	6	207
Sep 2022	166	18	2	186
Oct 2022	119	8	1	128
Nov 2022	92	16	0	108
Dec 2022	96	12	0	108
Jan 2023	68	16	2	86
Feb 2023	89	16	0	105
Mar 2023	71	10	0	81
Apr 2023	33	15	1	49
May 2023	34	15	5	54
Jun 2023	31	8	0	39
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Nov 2023	16	1	1	18
Dec 2023	37	10	1	48
Jan 2024	44	7	0	51
Feb 2024	26	12	0	38
Mar 2024	24	16	1	41
Apr 2024	24	4	5	33
May 2024	43	24	4	71
Jun 2024	95	22	5	122
Jul 2024	58	24	5	87
Aug 2024	49	22	3	74
Sep 2024	53	13	2	68
Oct 2024	42	18	2	62
Nov 2024	45	26	0	71
Dec 2024	27	15	0	42
Jan 2025	33	28	0	61
Feb 2025	40	14	1	55
Mar 2025	32	19	1	52
Apr 2025	37	16	0	53
May 2025	62	26	2	90
Jun 2025	72	30	9	111
Jul 2025	34	31	2	67
Aug 2025	51	31	0	82
Sep 2025	100	49	2	151
Oct 2025	77	64	7	148
Nov 2025	93	36	19	148
Dec 2025	134	50	4	188
Jan 2026	137	53	17	207
Feb 2026	111	63	5	179
Mar 2026	107	83	5	195
Apr 2026	121	84	7	212
May 2026	3	1	0	4

Cumulative views and downloads (calculated since 25 Apr 2022)

Month	HTML	PDF	XML	Total
Apr 2022	58	17	7	82
May 2022	75	27	2	104
Jun 2022	43	16	0	59
Jul 2022	28	21	0	49
Aug 2022	165	36	6	207
Sep 2022	166	18	2	186
Oct 2022	119	8	1	128
Nov 2022	92	16	0	108
Dec 2022	96	12	0	108
Jan 2023	68	16	2	86
Feb 2023	89	16	0	105
Mar 2023	71	10	0	81
Apr 2023	33	15	1	49
May 2023	34	15	5	54
Jun 2023	31	8	0	39
Jul 2023	36	8	1	45
Aug 2023	33	10	1	44
Sep 2023	26	13	1	40
Oct 2023	31	7	1	39
Nov 2023	16	1	1	18
Dec 2023	37	10	1	48
Jan 2024	44	7	0	51
Feb 2024	26	12	0	38
Mar 2024	24	16	1	41
Apr 2024	24	4	5	33
May 2024	43	24	4	71
Jun 2024	95	22	5	122
Jul 2024	58	24	5	87
Aug 2024	49	22	3	74
Sep 2024	53	13	2	68
Oct 2024	42	18	2	62
Nov 2024	45	26	0	71
Dec 2024	27	15	0	42
Jan 2025	33	28	0	61
Feb 2025	40	14	1	55
Mar 2025	32	19	1	52
Apr 2025	37	16	0	53
May 2025	62	26	2	90
Jun 2025	72	30	9	111
Jul 2025	34	31	2	67
Aug 2025	51	31	0	82
Sep 2025	100	49	2	151
Oct 2025	77	64	7	148
Nov 2025	93	36	19	148
Dec 2025	134	50	4	188
Jan 2026	137	53	17	207
Feb 2026	111	63	5	179
Mar 2026	107	83	5	195
Apr 2026	121	84	7	212
May 2026	3	1	0	4

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Total article views: 4,442 (including HTML, PDF, and XML) Thereof 4,284 with geography defined and 158 with unknown origin.

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Short summary

The ability to make reliable magnetic measurements in space is very important for a broad range of applications in space science. Here, we present the design and performance of a new magnetometer that looks very promising for making stable reliable magnetic measurements in space. We show that Tesseract performs better than the traditional ring-core design in metrics that are associated with stability.