Long-term observation of midlatitude quasi 2-day waves by a water vapor radiometer

Lainer, Martin; Hocke, Klemens; Kämpfer, Niklaus

doi:https://doi.org/10.5194/acp-18-12061-2018

Articles | Volume 18, issue 16

https://doi.org/10.5194/acp-18-12061-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-18-12061-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 16

Research article

|

22 Aug 2018

Research article |

| 22 Aug 2018

Long-term observation of midlatitude quasi 2-day waves by a water vapor radiometer

Martin Lainer, Klemens Hocke, and Niklaus Kämpfer

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Views and downloads (calculated since 25 Jan 2018)

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Apr 2018	23	7	1	31
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Jun 2018	20	6	1	27
Jul 2018	17	7	0	24
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Sep 2018	47	23	2	72
Oct 2018	16	8	1	25
Nov 2018	15	10	0	25
Dec 2018	8	9	2	19
Jan 2019	7	3	2	12
Feb 2019	10	11	2	23
Mar 2019	11	8	6	25
Apr 2019	8	10	1	19
May 2019	17	12	0	29
Jun 2019	21	9	2	32
Jul 2019	8	5	0	13
Aug 2019	9	5	0	14
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Oct 2019	28	10	0	38
Nov 2019	4	3	3	10
Dec 2019	13	6	0	19
Jan 2020	19	2	0	21
Feb 2020	12	5	1	18
Mar 2020	6	4	0	10
Apr 2020	12	5	0	17
May 2020	23	1	24
Jun 2020	11	8	0	19
Jul 2020	14	14	6	34
Aug 2020	9	6	0	15
Sep 2020	16	12	2	30
Oct 2020	5	10	0	15
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Jan 2021	14	16	1	31
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May 2021	10	10	2	22
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Jul 2021	4	10	1	15
Aug 2021	3	4	0	7
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Oct 2021	6	27	1	34
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Jan 2022	8	6	3	17
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Mar 2022	4	5	0	9
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Jun 2022	6	3	1	10
Jul 2022	15	2	0	17
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Jan 2023	10	8	0	18
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Jun 2023	9	1	10
Jul 2023	10	6	1	17
Aug 2023	3	3	2	8
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Oct 2023	32	6	2	40
Nov 2023	32	5	0	37
Dec 2023	21	6	3	30
Jan 2024	14	1	0	15
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Mar 2024	12	20	3	35
Apr 2024	3	9	1	13

Cumulative views and downloads (calculated since 25 Jan 2018)

Month	HTML	PDF	XML	Total
Jan 2018	91	15	3	109
Feb 2018	48	11	4	63
Mar 2018	20	10	0	30
Apr 2018	23	7	1	31
May 2018	23	5	1	29
Jun 2018	20	6	1	27
Jul 2018	17	7	0	24
Aug 2018	184	38	4	226
Sep 2018	47	23	2	72
Oct 2018	16	8	1	25
Nov 2018	15	10	0	25
Dec 2018	8	9	2	19
Jan 2019	7	3	2	12
Feb 2019	10	11	2	23
Mar 2019	11	8	6	25
Apr 2019	8	10	1	19
May 2019	17	12	0	29
Jun 2019	21	9	2	32
Jul 2019	8	5	0	13
Aug 2019	9	5	0	14
Sep 2019	10	3	2	15
Oct 2019	28	10	0	38
Nov 2019	4	3	3	10
Dec 2019	13	6	0	19
Jan 2020	19	2	0	21
Feb 2020	12	5	1	18
Mar 2020	6	4	0	10
Apr 2020	12	5	0	17
May 2020	23	1	24
Jun 2020	11	8	0	19
Jul 2020	14	14	6	34
Aug 2020	9	6	0	15
Sep 2020	16	12	2	30
Oct 2020	5	10	0	15
Nov 2020	7	3	1	11
Dec 2020	8	6	0	14
Jan 2021	14	16	1	31
Feb 2021	6	6	0	12
Mar 2021	8	11	3	22
Apr 2021	5	8	0	13
May 2021	10	10	2	22
Jun 2021	5	10	0	15
Jul 2021	4	10	1	15
Aug 2021	3	4	0	7
Sep 2021	16	15	0	31
Oct 2021	6	27	1	34
Nov 2021	9	18	3	30
Dec 2021	13	11	0	24
Jan 2022	8	6	3	17
Feb 2022	6	2	2	10
Mar 2022	4	5	0	9
Apr 2022	8	3	1	12
May 2022	6	4	0	10
Jun 2022	6	3	1	10
Jul 2022	15	2	0	17
Aug 2022	67	6	1	74
Sep 2022	3	4	1	8
Oct 2022	8	2	1	11
Nov 2022	37	3	0	40
Dec 2022	8	10	0	18
Jan 2023	10	8	0	18
Feb 2023	11	5	0	16
Mar 2023	13	6	1	20
Apr 2023	3	3	0	6
May 2023	6	6	1	13
Jun 2023	9	1	10
Jul 2023	10	6	1	17
Aug 2023	3	3	2	8
Sep 2023	10	3	1	14
Oct 2023	32	6	2	40
Nov 2023	32	5	0	37
Dec 2023	21	6	3	30
Jan 2024	14	1	0	15
Feb 2024	11	6	0	17
Mar 2024	12	20	3	35
Apr 2024	3	9	1	13

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Short summary

A long continuous record (in total 7 years) of middle atmospheric water vapor at the midlatitude NDACC station in Bern is investigated to study quasi 2-day wave oscillations (Q2DWs). We present monthly climatologies of the wave amplitudes and show the periods that the Q2DWs developed. What we observe is very-high-frequency variability. An autobicoherence analysis revealed nonlinear phase couplings between Q2DWs and other atmospheric waves. Our results are useful for model validation purposes.

Long-term observation of midlatitude quasi 2-day waves by a water vapor radiometer

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5 citations as recorded by crossref.

5 citations as recorded by crossref.


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