Ozone and temperature decadal responses to solar variability in the
stratosphere and lower mesosphere, based on measurements from
SABER on TIMED

Huang, Frank T.; Mayr, Hans G.; Russell III, James M.; Mlynczak, Martin G.

doi:10.5194/angeo-34-801-2016

Articles | Volume 34, issue 9

https://doi.org/10.5194/angeo-34-801-2016

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

https://doi.org/10.5194/angeo-34-801-2016

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

Articles | Volume 34, issue 9

Regular paper

|

20 Sep 2016

Regular paper |

| 20 Sep 2016

Ozone and temperature decadal responses to solar variability in the stratosphere and lower mesosphere, based on measurements from SABER on TIMED

Frank T. Huang, Hans G. Mayr, James M. Russell III, and Martin G. Mlynczak

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Views and downloads (calculated since 20 Sep 2016)

Month	HTML	PDF	XML	Total
Sep 2016	38	16	0	54
Oct 2016	129	12	0	141
Nov 2016	19	4	0	23
Dec 2016	6	5	1	12
Jan 2017	8	4	0	12
Feb 2017	7	1	0	8
Mar 2017	18	2	0	20
Apr 2017	17	8	0	25
May 2017	16	6	1	23
Jun 2017	19	2	0	21
Jul 2017	13	5	0	18
Aug 2017	5	4	0	9
Sep 2017	7	3	0	10
Oct 2017	5	4	0	9
Nov 2017	8	8	1	17
Dec 2017	5	7	0	12
Jan 2018	5	4	0	9
Feb 2018	9	3	0	12
Mar 2018	4	4	1	9
Apr 2018	4	7	0	11
May 2018	4	4	0	8
Jun 2018	9	6	1	16
Jul 2018	3	6	2	11
Aug 2018	6	3	1	10
Sep 2018	9	11	2	22
Oct 2018	8	8	0	16
Nov 2018	7	5	1	13
Dec 2018	5	10	2	17
Jan 2019	8	3	0	11
Feb 2019	8	3	0	11
Mar 2019	8	6	0	14
Apr 2019	10	10	0	20
May 2019	9	7	0	16
Jun 2019	3	8	0	11
Jul 2019	7	2	0	9
Aug 2019	5	5	0	10
Sep 2019	5	4	0	9
Oct 2019	3	4	1	8
Nov 2019	8	9	0	17
Dec 2019	4	3	0	7
Jan 2020	9	4	1	14
Feb 2020	8	3	0	11
Mar 2020	4	7	1	12
Apr 2020	7	0	7
May 2020	4	5	1	10
Jun 2020	6	4	1	11
Jul 2020	23	12	5	40
Aug 2020	7	3	3	13
Sep 2020	5	2	0	7
Oct 2020	6	11	0	17
Nov 2020	6	8	1	15
Dec 2020	15	12	0	27
Jan 2021	12	9	0	21
Feb 2021	6	4	0	10
Mar 2021	12	5	0	17
Apr 2021	6	10	0	16
May 2021	5	4	0	9
Jun 2021	8	5	0	13
Jul 2021	7	6	0	13
Aug 2021	6	6	0	12
Sep 2021	9	6	0	15
Oct 2021	7	17	0	24
Nov 2021	8	13	0	21
Dec 2021	6	5	0	11
Jan 2022	11	6	0	17
Feb 2022	3	4	1	8
Mar 2022	5	3	2	10
Apr 2022	4	5	0	9
May 2022	6	4	0	10
Jun 2022	8	4	1	13
Jul 2022	3	3	0	6
Aug 2022	10	6	0	16
Sep 2022	5	2	0	7
Oct 2022	3	2	0	5
Nov 2022	8	7	0	15
Dec 2022	6	6	0	12
Jan 2023	6	7	0	13
Feb 2023	9	5	0	14
Mar 2023	18	1	0	19
Apr 2023	6	4	0	10
May 2023	19	5	3	27
Jun 2023	28	1	1	30
Jul 2023	11	1	0	12
Aug 2023	7	4	1	12
Sep 2023	6	2	1	9
Oct 2023	7	4	0	11
Nov 2023	1	3	0	4
Dec 2023	11	4	3	18
Jan 2024	4	1	0	5
Feb 2024	5	3	2	10
Mar 2024	7	5	4	16
Apr 2024	6	2	2	10
May 2024	10	4	5	19
Jun 2024	12	6	2	20
Jul 2024	12	3	2	17
Aug 2024	14	1	6	21
Sep 2024	5	5	0	10
Oct 2024	13	3	2	18
Nov 2024	5	4	1	10
Dec 2024	2	4	0	6
Jan 2025	8	6	0	14
Feb 2025	20	3	0	23
Mar 2025	10	5	4	19
Apr 2025	13	8	0	21
May 2025	11	3	2	16
Jun 2025	27	6	0	33
Jul 2025	24	11	1	36
Aug 2025	25	4	1	30
Sep 2025	22	9	3	34
Oct 2025	21	20	2	43
Nov 2025	6	2	0	8

Cumulative views and downloads (calculated since 20 Sep 2016)

Month	HTML	PDF	XML	Total
Sep 2016	38	16	0	54
Oct 2016	129	12	0	141
Nov 2016	19	4	0	23
Dec 2016	6	5	1	12
Jan 2017	8	4	0	12
Feb 2017	7	1	0	8
Mar 2017	18	2	0	20
Apr 2017	17	8	0	25
May 2017	16	6	1	23
Jun 2017	19	2	0	21
Jul 2017	13	5	0	18
Aug 2017	5	4	0	9
Sep 2017	7	3	0	10
Oct 2017	5	4	0	9
Nov 2017	8	8	1	17
Dec 2017	5	7	0	12
Jan 2018	5	4	0	9
Feb 2018	9	3	0	12
Mar 2018	4	4	1	9
Apr 2018	4	7	0	11
May 2018	4	4	0	8
Jun 2018	9	6	1	16
Jul 2018	3	6	2	11
Aug 2018	6	3	1	10
Sep 2018	9	11	2	22
Oct 2018	8	8	0	16
Nov 2018	7	5	1	13
Dec 2018	5	10	2	17
Jan 2019	8	3	0	11
Feb 2019	8	3	0	11
Mar 2019	8	6	0	14
Apr 2019	10	10	0	20
May 2019	9	7	0	16
Jun 2019	3	8	0	11
Jul 2019	7	2	0	9
Aug 2019	5	5	0	10
Sep 2019	5	4	0	9
Oct 2019	3	4	1	8
Nov 2019	8	9	0	17
Dec 2019	4	3	0	7
Jan 2020	9	4	1	14
Feb 2020	8	3	0	11
Mar 2020	4	7	1	12
Apr 2020	7	0	7
May 2020	4	5	1	10
Jun 2020	6	4	1	11
Jul 2020	23	12	5	40
Aug 2020	7	3	3	13
Sep 2020	5	2	0	7
Oct 2020	6	11	0	17
Nov 2020	6	8	1	15
Dec 2020	15	12	0	27
Jan 2021	12	9	0	21
Feb 2021	6	4	0	10
Mar 2021	12	5	0	17
Apr 2021	6	10	0	16
May 2021	5	4	0	9
Jun 2021	8	5	0	13
Jul 2021	7	6	0	13
Aug 2021	6	6	0	12
Sep 2021	9	6	0	15
Oct 2021	7	17	0	24
Nov 2021	8	13	0	21
Dec 2021	6	5	0	11
Jan 2022	11	6	0	17
Feb 2022	3	4	1	8
Mar 2022	5	3	2	10
Apr 2022	4	5	0	9
May 2022	6	4	0	10
Jun 2022	8	4	1	13
Jul 2022	3	3	0	6
Aug 2022	10	6	0	16
Sep 2022	5	2	0	7
Oct 2022	3	2	0	5
Nov 2022	8	7	0	15
Dec 2022	6	6	0	12
Jan 2023	6	7	0	13
Feb 2023	9	5	0	14
Mar 2023	18	1	0	19
Apr 2023	6	4	0	10
May 2023	19	5	3	27
Jun 2023	28	1	1	30
Jul 2023	11	1	0	12
Aug 2023	7	4	1	12
Sep 2023	6	2	1	9
Oct 2023	7	4	0	11
Nov 2023	1	3	0	4
Dec 2023	11	4	3	18
Jan 2024	4	1	0	5
Feb 2024	5	3	2	10
Mar 2024	7	5	4	16
Apr 2024	6	2	2	10
May 2024	10	4	5	19
Jun 2024	12	6	2	20
Jul 2024	12	3	2	17
Aug 2024	14	1	6	21
Sep 2024	5	5	0	10
Oct 2024	13	3	2	18
Nov 2024	5	4	1	10
Dec 2024	2	4	0	6
Jan 2025	8	6	0	14
Feb 2025	20	3	0	23
Mar 2025	10	5	4	19
Apr 2025	13	8	0	21
May 2025	11	3	2	16
Jun 2025	27	6	0	33
Jul 2025	24	11	1	36
Aug 2025	25	4	1	30
Sep 2025	22	9	3	34
Oct 2025	21	20	2	43
Nov 2025	6	2	0	8

Latest update: 08 Nov 2025

Short summary

We have derived ozone and temperature responses to solar variability over a solar cycle, from 2002 to 2014 at 20–60 km and 48°S–48°N, based on a new dataset (SABER). These global results can be directly compared with 3-D models and will help in understanding not only the physical processes but also how they affect the Earth's climate. The simultaneous measurements of ozone and temperature will give added insight into the dynamics and photochemistry of the middle and upper atmosphere.