Observing Forbush decreases in cloud at Shetland

被引:37
作者
Harrison, R. Giles [1 ]
Ambaum, Maarten H. P. [1 ]
机构
[1] Univ Reading, Dept Meteorol, Reading RG6 6BB, Berks, England
来源
JOURNAL OF ATMOSPHERIC AND SOLAR-TERRESTRIAL PHYSICS | 2010年 / 72卷 / 18期
基金
美国国家科学基金会;
关键词
Cosmic rays; Diffuse fraction; Atmospheric electricity; Solar climate; GLOBAL ELECTRIC-CIRCUIT; GALACTIC COSMIC-RAYS; ATMOSPHERIC ELECTRICITY; AEROSOL-PARTICLES; SOLAR-WIND; CLIMATE; CONDENSATION; VARIABILITY; ENHANCEMENT; TROPOSPHERE;
D O I
10.1016/j.jastp.2010.09.025
中图分类号
P3 [地球物理学]; P59 [地球化学];
学科分类号
0708 ; 070902 ;
摘要
Meteorological measurements from Lerwick Observatory, Shetland (60 degrees 09'N, 1 degrees 08'W), are compared with short-term changes in Climax neutron counter cosmic ray measurements. For transient neutron count reductions of 10-12%, broken cloud becomes at least 10% more frequent on the neutron minimum day, above expectations from sampling. This suggests a rapid time scale (similar to 1 day) cloud response to cosmic ray changes. However, larger or smaller neutron count reductions do not coincide with cloud responses exceeding sampling effects. Larger events are too rare to provide a robust signal above the sampling noise. Smaller events are too weak to be observed above the natural variability. (C) 2010 Elsevier Ltd. All rights reserved.
引用
收藏
页码:1408 / 1414
页数:7
相关论文
共 50 条
  • [41] The effect of Forbush decreases on tropospheric parameters over South Pole
    Lam, MM
    Rodger, AS
    JOURNAL OF ATMOSPHERIC AND SOLAR-TERRESTRIAL PHYSICS, 2002, 64 (01) : 41 - 45
  • [42] Spectral Analysis of Forbush Decreases Using a New Yield Function
    Livada, M.
    Mavromichalaki, H.
    SOLAR PHYSICS, 2020, 295 (08)
  • [43] Impact of Forbush Decreases and Geomagnetic Storms on the Atmospheric Ozone Profiles
    Kilifarska, Natalya
    Peqini, Klaudio
    EARTH AND SPACE SCIENCE, 2023, 10 (07)
  • [44] Forbush decreases and turbulence levels at coronal mass ejection fronts
    Subramanian, P.
    Antia, H. M.
    Dugad, S. R.
    Goswami, U. D.
    Gupta, S. K.
    Hayashi, Y.
    Ito, N.
    Kawakami, S.
    Kojima, H.
    Mohanty, P. K.
    Nayak, P. K.
    Nonaka, T.
    Oshima, A.
    Sivaprasad, K.
    Tanaka, H.
    Tonwar, S. C.
    ASTRONOMY & ASTROPHYSICS, 2009, 494 (03): : 1107 - 1118
  • [45] Spectral Analysis of Forbush Decreases Using a New Yield Function
    M. Livada
    H. Mavromichalaki
    Solar Physics, 2020, 295
  • [46] Severe geomagnetic storms and Forbush decreases: interplanetary relationships reexamined
    Kane, R. P.
    ANNALES GEOPHYSICAE, 2010, 28 (02) : 479 - 489
  • [47] Two intense Forbush decreases of solar activity cycle 22
    Ahluwalia, H. S.
    Ygbuhaya, R. C.
    Duldig, M. L.
    ADVANCES IN SPACE RESEARCH, 2009, 44 (01) : 58 - 63
  • [48] A comparison of catalogues of Forbush decreases identified from individual and a network of neutron monitors: a critical perspective
    Okike, O.
    Alhassan, J. A.
    Iyida, E. U.
    Chukwude, A. E.
    MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 2021, 503 (04) : 5675 - 5691
  • [49] On the Interaction of Galactic Cosmic Rays with Heliospheric Shocks During Forbush Decreases
    Kirin, Anamarija
    Vrsnak, Bojan
    Dumbovic, Mateja
    Heber, Bernd
    SOLAR PHYSICS, 2020, 295 (02)
  • [50] Charge sign dependence of recurrent Forbush decreases in 2016-2017
    Romaneehsen, L.
    Heber, B.
    Marquardt, J.
    ASTRONOMY & ASTROPHYSICS, 2024, 690
12345