We describe atmospheric extinction data obtained at the La Silla Observatory in the Stromgren photometric system. Our measurements, covering a time interval of almost fifteen years, show three episodes of increased extinction due to airborne aerosols of volcanic origin. A small-amplitude seasonal variation and a short-timescale pseudo-periodic oscillation are also revealed. Implications on the observing procedures and photometric reduction schemes are discussed
Data from five continuous years (1984 to 1989) at Teide Observatory (Izaña, Tenerife, Canary Islands...
The aerosol lidar system operational at IMAA-CNR in Tito Scalo (PZ) (Southern Italy, 40°36'N, 15°44'...
The aerosol lidar system operational at IMAA-CNR in Tito Scalo (PZ) (Southern Italy, 40degrees36'N, ...
A revised chronology of stratospheric aerosol extinction due to volcanic eruptions has been assemble...
Atmospheric aerosol particles originating from natural sources, such as volcanos and sulfur-bearing ...
Stratospheric extinction can be derived from ground-based spectral photometric observations of the S...
The atmospheric extinction of San Pedro Martir (SPM) is analyzed using 13color determinations from ...
The first and second order extinction coefficients in the UBVRI and DDO systems are derived for the ...
Extinction effects of the volcanic dust injected into the stratosphere by the violent eruption of Mo...
Aims: The present study was conducted to determine the optical extinction curve for Cerro Paranal un...
Stratospheric aerosol extinction profiles have been retrieved from SCIAMACHY/Envisat measurements of...
Lidar observations of aerosols were carried out at Aberystwyth between Nov. 1982 and Dec. 1985 using...
Recent optical observations of aerosols in the upper stratosphere and mesosphere show significant am...
Measurements on stratospheric aerosols were carried out at Syowa Station (69°00\u27S, 39°35\u27E) in...
A pulsed ruby lidar has been in regular operation at the tropical station Trivandrum (8 deg 33 sec N...
Data from five continuous years (1984 to 1989) at Teide Observatory (Izaña, Tenerife, Canary Islands...
The aerosol lidar system operational at IMAA-CNR in Tito Scalo (PZ) (Southern Italy, 40°36'N, 15°44'...
The aerosol lidar system operational at IMAA-CNR in Tito Scalo (PZ) (Southern Italy, 40degrees36'N, ...
A revised chronology of stratospheric aerosol extinction due to volcanic eruptions has been assemble...
Atmospheric aerosol particles originating from natural sources, such as volcanos and sulfur-bearing ...
Stratospheric extinction can be derived from ground-based spectral photometric observations of the S...
The atmospheric extinction of San Pedro Martir (SPM) is analyzed using 13color determinations from ...
The first and second order extinction coefficients in the UBVRI and DDO systems are derived for the ...
Extinction effects of the volcanic dust injected into the stratosphere by the violent eruption of Mo...
Aims: The present study was conducted to determine the optical extinction curve for Cerro Paranal un...
Stratospheric aerosol extinction profiles have been retrieved from SCIAMACHY/Envisat measurements of...
Lidar observations of aerosols were carried out at Aberystwyth between Nov. 1982 and Dec. 1985 using...
Recent optical observations of aerosols in the upper stratosphere and mesosphere show significant am...
Measurements on stratospheric aerosols were carried out at Syowa Station (69°00\u27S, 39°35\u27E) in...
A pulsed ruby lidar has been in regular operation at the tropical station Trivandrum (8 deg 33 sec N...
Data from five continuous years (1984 to 1989) at Teide Observatory (Izaña, Tenerife, Canary Islands...
The aerosol lidar system operational at IMAA-CNR in Tito Scalo (PZ) (Southern Italy, 40°36'N, 15°44'...
The aerosol lidar system operational at IMAA-CNR in Tito Scalo (PZ) (Southern Italy, 40degrees36'N, ...
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