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Dmitry Chechin
Dmitry Chechin
A.M. Obukhov Institute of Atmospheric Physics RAS
Verified email at ifaran.ru
Title
Cited by
Cited by
Year
The Arctic cloud puzzle: Using ACLOUD/PASCAL multiplatform observations to unravel the role of clouds and aerosol particles in Arctic amplification
M Wendisch, A Macke, A Ehrlich, C Lüpkes, M Mech, D Chechin, ...
Bulletin of the American Meteorological Society 100 (5), 841-871, 2019
181*2019
Advances in understanding and parameterization of small-scale physical processes in the marine Arctic climate system: a review
T Vihma, R Pirazzini, I Fer, IA Renfrew, J Sedlar, M Tjernström, C Lüpkes, ...
Atmospheric Chemistry and Physics 14 (17), 9403-9450, 2014
1702014
Role of air-mass transformations in exchange between the Arctic and mid-latitudes
F Pithan, G Svensson, R Caballero, D Chechin, TW Cronin, AML Ekman, ...
Nature Geoscience 11 (11), 805-812, 2018
1362018
A comprehensive in situ and remote sensing data set from the Arctic CLoud Observations Using airborne measurements during polar Day (ACLOUD) campaign
A Ehrlich, M Wendisch, C Lüpkes, M Buschmann, H Bozem, D Chechin, ...
Earth System Science Data 11 (4), 1853-1881, 2019
642019
Idealized dry quasi 2‐D mesoscale simulations of cold‐air outbreaks over the marginal sea ice zone with fine and coarse resolution
DG Chechin, C Lüpkes, IA Repina, VM Gryanik
Journal of Geophysical Research: Atmospheres 118 (16), 8787-8813, 2013
592013
Atmospheric and surface processes, and feedback mechanisms determining Arctic amplification: A review of first results and prospects of the (AC) 3 project
M Wendisch, M Brückner, S Crewell, A Ehrlich, J Notholt, C Lüpkes, ...
Bulletin of the American Meteorological Society 104 (1), E208-E242, 2023
492023
Effect of wind speed and leads on clear-sky cooling over Arctic sea ice during polar night
DG Chechin, IA Makhotina, C Lüpkes, AP Makshtas
Journal of the Atmospheric Sciences 76 (8), 2481-2503, 2019
282019
Paving the way for the year of polar prediction
HF Goessling, T Jung, S Klebe, J Baeseman, P Bauer, P Chen, ...
Bulletin of the American Meteorological Society 97 (4), ES85-ES88, 2016
282016
Boundary-layer development and low-level baroclinicity during high-latitude cold-air outbreaks: A simple model
DG Chechin, C Lüpkes
Boundary-Layer Meteorology 162 (1), 91-116, 2017
232017
MOSAiC-ACA and AFLUX-Arctic airborne campaigns characterizing the exit area of MOSAiC
M Mech, A Ehrlich, A Herber, C Lüpkes, M Wendisch, S Becker, Y Boose, ...
Scientific data 9 (1), 790, 2022
192022
Исследование взаимодействия океана и атмосферы в полярных районах в рамках международного полярного года
ИА Репина, АЮ Артамонов, АС Смирнов, ДГ Чечин
Метеорологические и геофизические исследования/Под ред. ГВ Алексеева. М, 236-250, 2011
182011
Влияние полыней и разводий в Арктике на структуру атмосферного пограничного слоя и региональный климат
ИА Репина, ДГ Чечин
Современные проблемы дистанционного зондирования Земли из космоса 9 (4), 162-170, 2012
15*2012
Turbulent structure of the Arctic boundary layer in early summer driven by stability, wind shear and cloud-top radiative cooling: ACLOUD airborne observations
DG Chechin, C Lüpkes, J Hartmann, A Ehrlich, M Wendisch
Atmospheric Chemistry and Physics 23 (8), 4685-4707, 2023
102023
High resolution aircraft measurements of wind and temperature during the ACLOUD campaign in 2017
J Hartmann, C Lüpkes, D Chechin
PANGAEA [data set] 10, 2019
102019
Cold-air outbreaks over the ocean at high latitudes and associated mesoscale atmospheric circulations: Problems of numerical modelling
DG Chechin, MK Pichugin
Izvestiya, Atmospheric and Oceanic Physics 51, 1034-1050, 2015
102015
High-latitude dynamics of atmosphere–ice–ocean interactions
T Spengler, IA Renfrew, A Terpstra, M Tjernström, J Screen, IM Brooks, ...
Bulletin of the American Meteorological Society 97 (9), ES179-ES182, 2016
92016
The foehn effect during easterly flow over Svalbard
AA Shestakova, DG Chechin, C Lüpkes, J Hartmann, M Maturilli
Atmospheric Chemistry and Physics 22 (2), 1529-1548, 2022
82022
The impact of sea waves on turbulent heat fluxes in the Barents Sea according to numerical modeling
S Myslenkov, A Shestakova, D Chechin
Atmospheric Chemistry and Physics 21 (7), 5575-5595, 2021
82021
Dynamical processes in the Arctic atmosphere
MO Jonassen, D Chechin, A Karpechko, C Lüpkes, T Spengler, A Tepstra, ...
Physics and chemistry of the Arctic atmosphere, 1-51, 2020
82020
High resolution aircraft measurements of wind and temperature during the ACLOUD campaign in 2017, PANGAEA
J Hartmann, C Lüpkes, D Chechin
82019
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