A borehole trajectory inversion scheme to adjust the measurement geometry for 3D travel-time tomography on glaciers

Hellmann, Sebastian; Grab, Melchior; Patzer, Cedric; Bauder, Andreas; Maurer, Hansruedi

doi:10.5194/se-14-805-2023

Articles | Volume 14, issue 7

https://doi.org/10.5194/se-14-805-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/se-14-805-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 14, issue 7

Research article

|

28 Jul 2023

Research article |

| 28 Jul 2023

A borehole trajectory inversion scheme to adjust the measurement geometry for 3D travel-time tomography on glaciers

Sebastian Hellmann, Melchior Grab, Cedric Patzer, Andreas Bauder, and Hansruedi Maurer

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Month	HTML	PDF	XML	Total
Oct 2022	104	27	5	136
Nov 2022	61	14	1	76
Dec 2022	32	9	2	43
Jan 2023	23	4	0	27
Feb 2023	42	14	4	60
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Apr 2023	27	14	4	45
May 2023	11	8	0	19
Jun 2023	6	2	2	10
Jul 2023	48	21	4	73
Aug 2023	174	22	3	199
Sep 2023	119	13	4	136
Oct 2023	80	10	2	92
Nov 2023	35	9	3	47
Dec 2023	21	9	3	33
Jan 2024	11	5	1	17
Feb 2024	13	10	1	24
Mar 2024	25	14	2	41
Apr 2024	25	5	9	39
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Jul 2024	18	6	1	25
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Feb 2025	13	6	1	20
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Jul 2025	26	12	3	41
Aug 2025	79	4	1	84
Sep 2025	210	10	1	221
Oct 2025	38	13	2	53
Nov 2025	10	7	0	17

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Short summary

Acoustic waves are suitable to analyse the physical properties of the subsurface. For this purpose, boreholes are quite useful to deploy a source and receivers in the target area to get a comprehensive high-resolution dataset. However, when conducting such experiments in a subsurface such as glaciers that continuously move, the boreholes get deformed. In our study, we therefore developed a method that allows an analysis of the ice while considering deformations.


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