Aerosol particle depolarization ratio at 1565&thinsp;nm measured with a Halo Doppler lidar

Vakkari, Ville; Baars, Holger; Bohlmann, Stephanie; Bühl, Johannes; Komppula, Mika; Mamouri, Rodanthi-Elisavet; O'Connor, Ewan James

doi:10.5194/acp-21-5807-2021

Articles | Volume 21, issue 8

https://doi.org/10.5194/acp-21-5807-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Tropospheric profiling (ISTP11) (AMT/ACP inter-journal SI)

https://doi.org/10.5194/acp-21-5807-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 21, issue 8

Research article

|

19 Apr 2021

Research article |

| 19 Apr 2021

Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidar

Ville Vakkari, Holger Baars, Stephanie Bohlmann, Johannes Bühl, Mika Komppula, Rodanthi-Elisavet Mamouri, and Ewan James O'Connor

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Oct 2020	86	29	1	116
Nov 2020	29	18	0	47
Dec 2020	27	9	2	38
Jan 2021	47	16	0	63
Feb 2021	18	6	0	24
Mar 2021	15	11	0	26
Apr 2021	238	64	3	305
May 2021	102	22	2	126
Jun 2021	67	15	0	82
Jul 2021	71	12	0	83
Aug 2021	86	9	0	95
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Oct 2021	72	49	2	123
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Dec 2021	80	14	0	94
Jan 2022	25	10	0	35
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Aug 2022	18	8	2	28
Sep 2022	15	9	0	24
Oct 2022	13	3	1	17
Nov 2022	18	13	0	31
Dec 2022	16	10	0	26
Jan 2023	27	16	0	43
Feb 2023	45	7	0	52
Mar 2023	29	10	0	39
Apr 2023	11	16	0	27
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Jun 2023	21	8	3	32
Jul 2023	25	14	3	42
Aug 2023	29	11	2	42
Sep 2023	33	13	0	46
Oct 2023	39	18	2	59
Nov 2023	23	8	0	31
Dec 2023	41	9	1	51
Jan 2024	30	8	1	39
Feb 2024	17	5	0	22
Mar 2024	19	28	2	49
Apr 2024	29	12	2	43
May 2024	29	9	0	38
Jun 2024	56	12	1	69
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Aug 2024	42	10	2	54
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Nov 2024	12	17	1	30
Dec 2024	16	11	1	28
Jan 2025	22	6	4	32
Feb 2025	18	6	2	26
Mar 2025	24	11	2	37
Apr 2025	18	10	0	28
May 2025	42	11	0	53
Jun 2025	47	18	2	67
Jul 2025	33	16	4	53
Aug 2025	40	11	3	54
Sep 2025	107	15	1	123
Oct 2025	30	20	1	51
Nov 2025	68	18	6	92
Dec 2025	65	32	1	98
Jan 2026	80	11	5	96
Feb 2026	85	7	4	96
Mar 2026	37	16	3	56
Apr 2026	41	25	6	72

Cumulative views and downloads (calculated since 23 Oct 2020)

Month	HTML	PDF	XML	Total
Oct 2020	86	29	1	116
Nov 2020	29	18	0	47
Dec 2020	27	9	2	38
Jan 2021	47	16	0	63
Feb 2021	18	6	0	24
Mar 2021	15	11	0	26
Apr 2021	238	64	3	305
May 2021	102	22	2	126
Jun 2021	67	15	0	82
Jul 2021	71	12	0	83
Aug 2021	86	9	0	95
Sep 2021	76	17	1	94
Oct 2021	72	49	2	123
Nov 2021	76	26	0	102
Dec 2021	80	14	0	94
Jan 2022	25	10	0	35
Feb 2022	18	6	1	25
Mar 2022	12	9	0	21
Apr 2022	9	10	1	20
May 2022	11	7	0	18
Jun 2022	13	10	0	23
Jul 2022	9	5	0	14
Aug 2022	18	8	2	28
Sep 2022	15	9	0	24
Oct 2022	13	3	1	17
Nov 2022	18	13	0	31
Dec 2022	16	10	0	26
Jan 2023	27	16	0	43
Feb 2023	45	7	0	52
Mar 2023	29	10	0	39
Apr 2023	11	16	0	27
May 2023	21	13	0	34
Jun 2023	21	8	3	32
Jul 2023	25	14	3	42
Aug 2023	29	11	2	42
Sep 2023	33	13	0	46
Oct 2023	39	18	2	59
Nov 2023	23	8	0	31
Dec 2023	41	9	1	51
Jan 2024	30	8	1	39
Feb 2024	17	5	0	22
Mar 2024	19	28	2	49
Apr 2024	29	12	2	43
May 2024	29	9	0	38
Jun 2024	56	12	1	69
Jul 2024	37	7	3	47
Aug 2024	42	10	2	54
Sep 2024	12	2	0	14
Oct 2024	37	11	0	48
Nov 2024	12	17	1	30
Dec 2024	16	11	1	28
Jan 2025	22	6	4	32
Feb 2025	18	6	2	26
Mar 2025	24	11	2	37
Apr 2025	18	10	0	28
May 2025	42	11	0	53
Jun 2025	47	18	2	67
Jul 2025	33	16	4	53
Aug 2025	40	11	3	54
Sep 2025	107	15	1	123
Oct 2025	30	20	1	51
Nov 2025	68	18	6	92
Dec 2025	65	32	1	98
Jan 2026	80	11	5	96
Feb 2026	85	7	4	96
Mar 2026	37	16	3	56
Apr 2026	41	25	6	72

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Short summary

The depolarization ratio is a valuable parameter for aerosol categorization from remote sensing measurements. Here, we introduce particle depolarization ratio measurements at the 1565 nm wavelength, which is substantially longer than previously utilized wavelengths and enhances our capabilities to study the wavelength dependency of the particle depolarization ratio.