Profiling wind and greenhouse gases by infrared-laser occultation: results from end-to-end simulations in windy air

Plach, A.; Proschek, V.; Kirchengast, G.

doi:https://doi.org/10.5194/amt-8-2813-2015

Articles | Volume 8, issue 7

https://doi.org/10.5194/amt-8-2813-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

Observing Atmosphere and Climate with Occultation Techniques...

https://doi.org/10.5194/amt-8-2813-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 8, issue 7

Research article

|

16 Jul 2015

Research article |

| 16 Jul 2015

Profiling wind and greenhouse gases by infrared-laser occultation: results from end-to-end simulations in windy air

A. Plach, V. Proschek, and G. Kirchengast

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Views and downloads (calculated since 12 Jan 2015)

Month	HTML	PDF	XML	Total
Jan 2015	24	28	1	53
Feb 2015	21	17	2	40
Mar 2015	11	10	1	22
Apr 2015	30	8	0	38
May 2015	10	6	0	16
Jun 2015	13	7	2	22
Jul 2015	56	45	2	103
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Nov 2015	25	39	1	65
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Feb 2016	18	14	1	33
Mar 2016	21	4	1	26
Apr 2016	10	4	0	14
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Jan 2017	26	6	0	32
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Jan 2024	34	3	0	37
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Apr 2024	45	11	5	61
May 2024	11	8	6	25
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Jul 2024	8	3	1	12

Cumulative views and downloads (calculated since 12 Jan 2015)

Month	HTML	PDF	XML	Total
Jan 2015	24	28	1	53
Feb 2015	21	17	2	40
Mar 2015	11	10	1	22
Apr 2015	30	8	0	38
May 2015	10	6	0	16
Jun 2015	13	7	2	22
Jul 2015	56	45	2	103
Aug 2015	68	22	0	90
Sep 2015	24	10	0	34
Oct 2015	22	31	0	53
Nov 2015	25	39	1	65
Dec 2015	7	53	0	60
Jan 2016	32	36	0	68
Feb 2016	18	14	1	33
Mar 2016	21	4	1	26
Apr 2016	10	4	0	14
May 2016	24	7	0	31
Jun 2016	17	1	1	19
Jul 2016	9	1	4	14
Aug 2016	19	8	0	27
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Oct 2016	17	5	0	22
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Jan 2017	26	6	0	32
Feb 2017	11	1	0	12
Mar 2017	24	5	1	30
Apr 2017	43	5	4	52
May 2017	25	9	1	35
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Aug 2017	9	8	1	18
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Jul 2023	40	5	1	46
Aug 2023	47	12	4	63
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Nov 2023	24	1	0	25
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Jan 2024	34	3	0	37
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Apr 2024	45	11	5	61
May 2024	11	8	6	25
Jun 2024	15	6	1	22
Jul 2024	8	3	1	12

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Latest update: 16 Jul 2024

Short summary

This paper discusses simulation results of a newly developed line-of-sight wind retrieval algorithm expanding an existing simulation framework that includes the retrieval of thermodynamic variables and greenhouse gases in the upper troposphere/lower stratosphere region. The underlying mission concept further develops the radio occultation technique (i.e. satellite remote sensing technique scanning the atmosphere with high vertical resolution) employing microwave and infrared-laser signals.

Profiling wind and greenhouse gases by infrared-laser occultation: results from end-to-end simulations in windy air

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Cited

3 citations as recorded by crossref.

3 citations as recorded by crossref.

Saved (final revised paper)