A shape model of internally mixed soot particles derived from artificial surface tension

Ishimoto, Hiroshi; Kudo, Rei; Adachi, Kouji

doi:10.5194/amt-12-107-2019

Articles | Volume 12, issue 1

https://doi.org/10.5194/amt-12-107-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

SKYNET – the international network for aerosol, clouds,...

https://doi.org/10.5194/amt-12-107-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 12, issue 1

Research article

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07 Jan 2019

Research article | Highlight paper |

| 07 Jan 2019

A shape model of internally mixed soot particles derived from artificial surface tension

Hiroshi Ishimoto, Rei Kudo, and Kouji Adachi

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Oct 2019	70	11	3	84
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Jan 2020	41	15	3	59
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May 2020	94	10	1	105
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Aug 2020	69	17	3	89
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Dec 2021	52	11	1	64
Jan 2022	50	8	1	59
Feb 2022	42	8	1	51
Mar 2022	46	9	0	55
Apr 2022	39	6	1	46
May 2022	39	1	0	40
Jun 2022	41	5	1	47
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Aug 2022	53	7	1	61
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Mar 2023	47	6	2	55
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May 2023	47	7	0	54
Jun 2023	41	5	0	46
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Aug 2023	46	8	3	57
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Dec 2023	33	3	0	36
Jan 2024	3	3	0	6
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Mar 2024	18	10	4	32
Apr 2024	26	5	2	33
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Jun 2024	39	7	2	48
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Dec 2024	16	6	1	23
Jan 2025	16	9	0	25
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Mar 2025	17	7	0	24
Apr 2025	21	6	1	28
May 2025	28	7	2	37
Jun 2025	54	15	0	69
Jul 2025	46	14	4	64
Aug 2025	42	17	4	63
Sep 2025	37	17	1	55
Oct 2025	15	18	2	35
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Dec 2025	48	25	3	76
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Cumulative views and downloads (calculated since 20 Aug 2018)

Month	HTML	PDF	XML	Total
Aug 2018	165	29	2	196
Sep 2018	118	32	2	152
Oct 2018	35	6	0	41
Nov 2018	40	12	0	52
Dec 2018	31	11	1	43
Jan 2019	312	62	4	378
Feb 2019	69	29	4	102
Mar 2019	72	32	0	104
Apr 2019	80	35	1	116
May 2019	93	20	3	116
Jun 2019	72	21	1	94
Jul 2019	47	9	1	57
Aug 2019	33	15	0	48
Sep 2019	34	3	0	37
Oct 2019	70	11	3	84
Nov 2019	36	15	3	54
Dec 2019	48	14	0	62
Jan 2020	41	15	3	59
Feb 2020	37	10	1	48
Mar 2020	50	13	0	63
Apr 2020	68	12	0	80
May 2020	94	10	1	105
Jun 2020	47	15	0	62
Jul 2020	62	18	2	82
Aug 2020	69	17	3	89
Sep 2020	62	10	0	72
Oct 2020	42	10	0	52
Nov 2020	30	10	2	42
Dec 2020	61	11	0	72
Jan 2021	72	12	0	84
Feb 2021	57	10	0	67
Mar 2021	59	15	0	74
Apr 2021	57	9	0	66
May 2021	67	12	1	80
Jun 2021	63	10	0	73
Jul 2021	58	15	1	74
Aug 2021	45	12	1	58
Sep 2021	44	9	0	53
Oct 2021	44	36	1	81
Nov 2021	44	30	1	75
Dec 2021	52	11	1	64
Jan 2022	50	8	1	59
Feb 2022	42	8	1	51
Mar 2022	46	9	0	55
Apr 2022	39	6	1	46
May 2022	39	1	0	40
Jun 2022	41	5	1	47
Jul 2022	44	2	0	46
Aug 2022	53	7	1	61
Sep 2022	41	6	1	48
Oct 2022	73	1	0	74
Nov 2022	51	12	1	64
Dec 2022	47	6	1	54
Jan 2023	46	9	1	56
Feb 2023	48	11	1	60
Mar 2023	47	6	2	55
Apr 2023	42	7	0	49
May 2023	47	7	0	54
Jun 2023	41	5	0	46
Jul 2023	51	9	5	65
Aug 2023	46	8	3	57
Sep 2023	50	8	4	62
Oct 2023	58	6	1	65
Nov 2023	28	3	0	31
Dec 2023	33	3	0	36
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Feb 2024	10	8	0	18
Mar 2024	18	10	4	32
Apr 2024	26	5	2	33
May 2024	26	9	4	39
Jun 2024	39	7	2	48
Jul 2024	53	11	1	65
Aug 2024	35	4	5	44
Sep 2024	15	10	0	25
Oct 2024	13	14	0	27
Nov 2024	9	5	1	15
Dec 2024	16	6	1	23
Jan 2025	16	9	0	25
Feb 2025	31	9	0	40
Mar 2025	17	7	0	24
Apr 2025	21	6	1	28
May 2025	28	7	2	37
Jun 2025	54	15	0	69
Jul 2025	46	14	4	64
Aug 2025	42	17	4	63
Sep 2025	37	17	1	55
Oct 2025	15	18	2	35
Nov 2025	58	24	5	87
Dec 2025	48	25	3	76
Jan 2026	19	16	5	40

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Short summary

We developed a shape model of coated soot particles and created a dataset of their optical properties. To simulate the detailed shape properties of mixtures of soot aggregates and adhered water-soluble substances, we propose a simple model of surface tension derived from the artificial surface potential. The results of some single-scattering properties including lidar backscattering were discussed.


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