The Zugspitze radiative closure experiment for quantifying water vapor
absorption over the terrestrial and solar infrared &ndash;
Part 1: Setup, uncertainty analysis, and assessment of far-infrared water
vapor continuum

Sussmann, Ralf; Reichert, Andreas; Rettinger, Markus

doi:https://doi.org/10.5194/acp-16-11649-2016

Articles | Volume 16, issue 18

https://doi.org/10.5194/acp-16-11649-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

Twenty-five years of operations of the Network for the Detection...

https://doi.org/10.5194/acp-16-11649-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 16, issue 18

Research article

|

21 Sep 2016

Research article |

| 21 Sep 2016

The Zugspitze radiative closure experiment for quantifying water vapor absorption over the terrestrial and solar infrared – Part 1: Setup, uncertainty analysis, and assessment of far-infrared water vapor continuum

Ralf Sussmann, Andreas Reichert, and Markus Rettinger

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Oct 2016	31	13	5	49
Nov 2016	10	5	7	22
Dec 2016	11	3	1	15
Jan 2017	14	6	1	21
Feb 2017	12	4	1	17
Mar 2017	23	13	3	39
Apr 2017	27	22	2	51
May 2017	32	21	2	55
Jun 2017	27	8	1	36
Jul 2017	33	19	0	52
Aug 2017	16	12	0	28
Sep 2017	22	12	1	35
Oct 2017	13	19	0	32
Nov 2017	13	34	1	48
Dec 2017	5	13	0	18
Jan 2018	6	6	0	12
Feb 2018	16	4	0	20
Mar 2018	32	13	1	46
Apr 2018	15	16	0	31
May 2018	13	16	1	30
Jun 2018	9	12	0	21
Jul 2018	4	8	3	15
Aug 2018	14	8	3	25
Sep 2018	9	18	0	27
Oct 2018	16	21	4	41
Nov 2018	14	17	0	31
Dec 2018	4	9	2	15
Jan 2019	4	9	0	13
Feb 2019	2	10	0	12
Mar 2019	7	11	1	19
Apr 2019	9	4	1	14
May 2019	8	10	0	18
Jun 2019	8	6	0	14
Jul 2019	10	15	0	25
Aug 2019	9	8	1	18
Sep 2019	2	6	0	8
Oct 2019	6	10	4	20
Nov 2019	10	6	0	16
Dec 2019	7	7	0	14
Jan 2020	12	8	0	20
Feb 2020	13	3	1	17
Mar 2020	5	5	0	10
Apr 2020	3	12	1	16
May 2020	6	9	0	15
Jun 2020	11	17	0	28
Jul 2020	15	17	5	37
Aug 2020	8	12	2	22
Sep 2020	12	7	2	21
Oct 2020	11	11	0	22
Nov 2020	5	4	1	10
Dec 2020	7	9	0	16
Jan 2021	10	9	0	19
Feb 2021	17	8	0	25
Mar 2021	5	8	0	13
Apr 2021	7	10	1	18
May 2021	10	9	1	20
Jun 2021	4	7	0	11
Jul 2021	5	17	0	22
Aug 2021	6	11	1	18
Sep 2021	11	15	0	26
Oct 2021	3	38	2	43
Nov 2021	14	45	0	59
Dec 2021	16	15	1	32
Jan 2022	12	14	1	27
Feb 2022	7	16	1	24
Mar 2022	12	12	0	24
Apr 2022	7	15	1	23
May 2022	1	3	0	4
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Jul 2022	3	11	0	14
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Dec 2022	7	4	1	12
Jan 2023	4	10	0	14
Feb 2023	10	6	0	16
Mar 2023	17	9	2	28
Apr 2023	6	5	0	11
May 2023	32	10	1	43
Jun 2023	42	4	1	47
Jul 2023	38	5	1	44
Aug 2023	40	6	2	48
Sep 2023	44	3	1	48
Oct 2023	42	7	1	50
Nov 2023	23	1	24
Dec 2023	38	6	2	46
Jan 2024	34	16	1	51
Feb 2024	36	7	0	43
Mar 2024	46	22	1	69
Apr 2024	27	30	1	58

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Month	HTML	PDF	XML	Total
Apr 2016	74	20	0	94
May 2016	49	27	1	77
Jun 2016	27	10	1	38
Jul 2016	15	6	1	22
Aug 2016	11	7	1	19
Sep 2016	72	15	3	90
Oct 2016	31	13	5	49
Nov 2016	10	5	7	22
Dec 2016	11	3	1	15
Jan 2017	14	6	1	21
Feb 2017	12	4	1	17
Mar 2017	23	13	3	39
Apr 2017	27	22	2	51
May 2017	32	21	2	55
Jun 2017	27	8	1	36
Jul 2017	33	19	0	52
Aug 2017	16	12	0	28
Sep 2017	22	12	1	35
Oct 2017	13	19	0	32
Nov 2017	13	34	1	48
Dec 2017	5	13	0	18
Jan 2018	6	6	0	12
Feb 2018	16	4	0	20
Mar 2018	32	13	1	46
Apr 2018	15	16	0	31
May 2018	13	16	1	30
Jun 2018	9	12	0	21
Jul 2018	4	8	3	15
Aug 2018	14	8	3	25
Sep 2018	9	18	0	27
Oct 2018	16	21	4	41
Nov 2018	14	17	0	31
Dec 2018	4	9	2	15
Jan 2019	4	9	0	13
Feb 2019	2	10	0	12
Mar 2019	7	11	1	19
Apr 2019	9	4	1	14
May 2019	8	10	0	18
Jun 2019	8	6	0	14
Jul 2019	10	15	0	25
Aug 2019	9	8	1	18
Sep 2019	2	6	0	8
Oct 2019	6	10	4	20
Nov 2019	10	6	0	16
Dec 2019	7	7	0	14
Jan 2020	12	8	0	20
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Apr 2020	3	12	1	16
May 2020	6	9	0	15
Jun 2020	11	17	0	28
Jul 2020	15	17	5	37
Aug 2020	8	12	2	22
Sep 2020	12	7	2	21
Oct 2020	11	11	0	22
Nov 2020	5	4	1	10
Dec 2020	7	9	0	16
Jan 2021	10	9	0	19
Feb 2021	17	8	0	25
Mar 2021	5	8	0	13
Apr 2021	7	10	1	18
May 2021	10	9	1	20
Jun 2021	4	7	0	11
Jul 2021	5	17	0	22
Aug 2021	6	11	1	18
Sep 2021	11	15	0	26
Oct 2021	3	38	2	43
Nov 2021	14	45	0	59
Dec 2021	16	15	1	32
Jan 2022	12	14	1	27
Feb 2022	7	16	1	24
Mar 2022	12	12	0	24
Apr 2022	7	15	1	23
May 2022	1	3	0	4
Jun 2022	7	0	7
Jul 2022	3	11	0	14
Aug 2022	8	10	0	18
Sep 2022	8	50	0	58
Oct 2022	7	12	2	21
Nov 2022	13	10	0	23
Dec 2022	7	4	1	12
Jan 2023	4	10	0	14
Feb 2023	10	6	0	16
Mar 2023	17	9	2	28
Apr 2023	6	5	0	11
May 2023	32	10	1	43
Jun 2023	42	4	1	47
Jul 2023	38	5	1	44
Aug 2023	40	6	2	48
Sep 2023	44	3	1	48
Oct 2023	42	7	1	50
Nov 2023	23	1	24
Dec 2023	38	6	2	46
Jan 2024	34	16	1	51
Feb 2024	36	7	0	43
Mar 2024	46	22	1	69
Apr 2024	27	30	1	58

Cited

Latest update: 18 Apr 2024

Short summary

Quantitative knowledge of infrared absorption by water vapor is crucial for remote sensing and climate simulations. Under cold atmospheric conditions this information can only be attained via field experiments. Therefore, we set upa radiative closure study covering 1.28–25 µm at the Zugspitze (47° N, 2964 m a.s.l.). We describe the setup and elaborate on the radiance uncertainty budget. Water vapor continuum quantification in the far infrared shows consistency with the MT_CKD continuum model.

The Zugspitze radiative closure experiment for quantifying water vapor absorption over the terrestrial and solar infrared – Part 1: Setup, uncertainty analysis, and assessment of far-infrared water vapor continuum

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Cited

6 citations as recorded by crossref.

6 citations as recorded by crossref.