Chapter 1. Dynamical Processes in Arctic atmosphere ( Marius O. Jonassen, Dmitry Chechin, Alexey Karpechko, Christof Lüpkes, Thomas Spengler, Annick Tepstra, Timo Vihma, and Xiangdong Zhang).- Chapter 2. Thermodynamics of Arctic atmosphere (Claudio Tomasi, Boyan H. Petkov, Oxana Drofa, and Mauro Mazzola).- Chapter 3. Trace gases in Arctic atmosphere (Kimberly Strong, William R. Simpson, Kristof Bognar, Rodica Lindenmaier, and Sébastien Roche).- Chapter 4. Arctic aerosol (Roberto Udisti, Rita Traversi, Silvia Becagli, Claudio Tomasi, Mauro Mazzola, Angelo Lupi, and Patricia K. Quinn).- Chapter 5. Arctic clouds (Abhay Devasthale, Joseph Sedlar, Michael Tjernström and Alexander Kokhanovsky).- Chapter 6. Arctic fog (Ismail Gultepe, Andrew J. Heymsfield, Martin Gallagher).- Chapter 7. Polar stratospheric clouds (Francesco Cairo, and Tiziana Colavitto).- Chapter 8. Noctilucent clouds (Christian von Savigny, Gerd Baumgarten, and Franz-Josef Lubken).- Chapter 9. Remote sensing of Arctic atmosphere (Alexander Kokhanovsky, Claudio Tomasi, Alexander Smirnov, Andreas Herber, Roland Neuber, André Ehrlich, Angelo Lupi, Boyan H. Petkov, Mauro Mazzola, Christoph Ritter, Carlos Toledano, Thomas Carlund, Vito Vitale, Brent Holben, Tymon Zielinski, Simon Bélanger, Pierre Larouche, Stefan Kinne, Vladimir Radionov, Manfred Wendish, Jason L. Tackett and Dave M. Winker).- Chapter 10. Radiation in Arctic atmosphere and atmosphere-cryosphere feedbacks (Claudio Tomasi, Boyan H. Petkov, Angelo Lupi, and Mauro Mazzola and Christian Lanconelli, and I. Gultepe).- Chapter 11. Climate change in Arctic (T. Koenigk, J. Key, and T. Vihma).

Alexander Kokhanovsky is a remote sensing expert specializing in optical remote sensing of atmosphere from space. He has worked at several leading scientific and space exploration organizations such as Institute of Physics (Minsk, Belarus), Japan Aerospace Exploration Agency (Tokyo, Japan), Imperial College (London, UK), Institute of Remote Sensing of Bremen University (Bremen, Germany), and European Organisation for the Exploitation of Meteorological Satellites (EUMETSAT, Darmstadt, Germany). Alexander has 35 years of experience working in the area of satellite atmospheric optics and has designed and deployed several snow, aerosol and cloud remote sensing algorithms such as algorithms for SCanning Imaging Absorption SpectroMeter for Atmospheric ChartographY (SCIAMACHY) and future EUMETSAT Polar System – Second Generation imaging polarimeter (3MI).  He has published 5 books and about 250 scientific articles in remote sensing, image and radiative transfer, and light scattering.

Claudio Tomasi graduated at the Department of Physics of the University of Bologna, Italy, and worked as researcher at the National Council of Research CNR since 1970, carrying out his first studies on the extinction of solar radiation and absorption and emission of infrared radiation by the atmosphere, and working in the subsequent years on remote sensing techniques applied to aerosols, clouds and minor gases. He became CNR Senior Researcher in 1986 and Research Director in 1991. He was Director of the FISBAT-CNR Institute from 1994 to 1998 and member of the Scientific Committee of CNR from 1998 to 2002 (for Physics and Earth’s Sciences). After his retirement in 2006, he still continues his research activity as Associate Researcher at the Institute for Atmospheric Sciences and Climate (ISAC-CNR). He was P. I. from 2005 to 2009 of the national project QUITSAT supported by the Italian Space Agency to evaluate the air quality parameters on the Po Valley area, and leader of the international research project POLAR-AOD, dedicated to study the radiative parameters of polar aerosols. He is author of more than 160 papers published in international scientific reviews and more than 140 articles in national reviews and technical reports.

This book presents current knowledge on chemistry and physics of Arctic atmosphere. Special attention is given to studies of the Arctic haze phenomenon, Arctic tropospheric clouds, Arctic fog, polar stratospheric and mesospheric clouds, atmospheric dynamics, thermodynamics and radiative transfer as related to the polar environment. The atmosphere-cryosphere feedbacks and atmospheric remote sensing techniques are presented in detail. The problems of climate change in the Arctic are also addressed.