Doas and Solar Spectroscopic Measurements of Atmospheric Constituents: Principles, Inversion Algorithms, and Instrumentation - Mau Hing Chan - Libros - LAP LAMBERT Academic Publishing - 9783846596852 - 1 de diciembre de 2011
En caso de que portada y título no coincidan, el título será el correcto

Doas and Solar Spectroscopic Measurements of Atmospheric Constituents: Principles, Inversion Algorithms, and Instrumentation

Precio
Mex$ 1.262
sin IVA

Pedido desde almacén remoto

Entrega prevista 5 - 17 de ago.
Recibe notificaciones sobre nuevos lanzamientos de Mau Hing Chan
Añadir a tu lista de deseos de iMusic

Aún no valorado

Optical spectroscopy is a well-developed scientific method to retrieve atmospheric constituents. A simple methodology is to study the interactions of a light source with the atmosphere. Examples of the interactions include absorption and scattering effect due to air molecules and aerosols. Depending on the trace gases or aerosols intended to be measured, different methodologies are applied. Differential Optical Absorption Spectroscopy (DOAS) is widely employed for the trace gas retrieval; whereas analysis of scattering process is used to determine the aerosol features. Experimentally, to retrieve nitrogen dioxide, either direct sunlight or an artificial broadband light source can be used, and the DOAS method is used to analyze the residual light intensity. To retrieve water vapor column densities, the Langley method is employed. In addition, to characterize aerosol features, diffuse sunlight is analyzed. Sunlight is an elegant broadband light source for the atmospheric interactions. With the application of the DOAS method and solar spectroscopy, the book presents the working principles, inversion algorithms, and instrumentation in atmospheric research and trace gas monitoring.

Medios de comunicación Libros     Paperback Book   (Libro con tapa blanda y lomo encolado)
Publicado 1 de diciembre de 2011
ISBN13 9783846596852
Editores LAP LAMBERT Academic Publishing
Páginas 256
Dimensiones 150 × 15 × 226 mm   ·   399 g
Lengua Alemán