Cloud Physics

Siebesma, A., Bony, S., Jakob, C., & Stevens, B. (Eds.). (2020). Clouds and Climate: Climate Science's Greatest Challenge. Cambridge: Cambridge University Press. doi:10.1017/9781107447738

Lamb, D., & Verlinde, J. (2011). Physics and Chemistry of Clouds. Cambridge: Cambridge University Press. doi:10.1017/CBO9780511976377

Lohmann, U., Lüönd, F., & Mahrt, F. (2016). An Introduction to Clouds: From the Microscale to Climate. Cambridge: Cambridge University Press. doi:10.1017/CBO9781139087513

Rogers, R.R. and M.K. Yau (1989). A Short Course in Cloud Physics. New York: Pergamon Press, 293 pp.

Pruppacher, H.R. and J.D. Klett (1997). Microphysics of Clouds and Precipitation. Dordrecht: Kluwer Academic Publishers, 954 pp.

Academic year: 2020/2021
Semester: winter

LECTURE DESCRIPTION

Basic information on cloud thermodynamical and microphysical processes responsible for cloud droplet formation and evolution, and interactions aerosol - cloud - precipirtation will be presented. The existing knowledge will be complemented with open questions and new challenges in cloud physics.

Description of microphysics in cloud numerical models will be also presented.

We will discuss observation and measurements techniques in cloud physics and interpretation of results.

COURSES MATERIALS

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Lectures / Leader

Lecture type

Lecture 1: Introduction

Lecture documents:
Lecture's slides lecture_1_introduction.pdf
Bodenschatz E., Malinowski S.P., Shaw R.A., Stratmann F., 2010: Can We Understand Clouds without Turbulence?, Science, vol. 327, pp. 970-971 , 10.1126/science.1185138 Bodesschatz_Science_2010.pdf
Stevens, B., 2005: Atmospheric Moist Convection. Annu. Rev. Earth Planet. Sci. 2005. 33:605–43.doi: 10.1146/annurev.earth.33.092203.122658 stevens.annurev.2005.pdf
Stevens B, Boucher O. Climate science: The aerosol effect. Nature. 2012 Oct 4;490(7418):40-1. doi: 10.1038/490040a. PMID: 23038459. Stevens_Nature_2012.pdf

Lecture

Lecture 2: Thermodynamics

Lecture documents:
Lecture's slides lecture_2_thermodynamics.pdf
Clouds vs Fluids - chapter form Clouds and Climate book EUCLIPSE_BOOK_Clouds_as_Fluids.pdf

Lecture

Lecture 3: Microphysics

Lecture documents:
Lecture's slides lecture_3_microphysics.pdf

Lecture

Lecture 4: Activation 1

Lecture documents:
Lecture's slides lecture_4_activation_1.pdf

Lecture

Lecture 5: Activation 2

Lecture documents:
lecture_5_activation_2.pdf

Lecture

Lecture 6: Condensation 1

Lecture documents:
Lecture's slides lecture_6_condensation_1.pdf

Lecture

Lecture 7: Condensation 2

Lecture documents:
Lecture's slides lecture_7_condensation_2.pdf

Lecture

Lecture 8: Coalescence

Lecture documents:
Lecture's slides lecture_8_coalescence.pdf

Lecture

Lecture 9: Entrainment and mixing

Lecture documents:
Lecture's slides lecture_9_entrainment.pdf

Lecture

CONSTANTS

Physical constants used in atmospheric physics
Lecture documents:
constants.pdf

Class

Tutorial 1: Liquid Water Content (LWC)

Lecture documents:
tutorial_1_LWC.pdf
Lapse rates lapse_rate.pdf

Class

Tutorial 2: Microphysics

Lecture documents:
tutorial_2_microphysics.pdf
Data tutorial_ACE2_fr9721_130512.1R0010
tutorial_ACE2_fr9721_130702.1R0010
tutorial_ACE2_fr9721_130832.1R0010
tutorial_ACE2_fr9721_133042.1R0010
tutorial_ACE2_fr9721_133152.1R0010

Class

Tutorial 3: Activation

Lecture documents:
tutorial_3_activation.pdf

Class

Tutorial 4: Condensation

Lecture documents:
tutorial_4_condensation.pdf

Class