VAHCOLI, a new concept for lidars: technical setup, science applications, and first measurements

Lübken, Franz‐Josef; Höffner, J.

doi:10.5194/amt-14-3815-2021

Cited by 13 publications

(15 citation statements)

References 104 publications

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“…This will ultimately require rocket-borne sampling of the particles in the MLT, either directly or in the form of meteoric residuals in mesospheric ice particles. The COverage by LIdar) instrument (Lübken and Höffner, 2021).…”

Section: Cosmic Dustmentioning

confidence: 99%

Opinion: Recent Developments and Future Directions in Studying the Chemistry of the Mesosphere and Lower Thermosphere

Plane

Gumbel

Kalogerakis

et al. 2023

Preprint

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Abstract. This Opinion article begins with a review of important advances in the science of the Mesosphere and Lower Thermosphere (MLT) region of the atmosphere that have occurred over the past two decades since the founding of Atmospheric Chemistry and Physics. The emphasis is on chemistry (although, of course, this cannot be decoupled from discussion of atmospheric physics and dynamics), and the primary focus is on work during the past 10 years. Topics that are covered include: observations (satellite, rocket and ground-based techniques); the variability and connectedness of the MLT on various length- and time-scales; airglow emissions; the cosmic dust input and meteoric metal layers; and noctilucent (or polar mesospheric) ice clouds. The paper then concludes with a discussion of important unanswered questions and likely future directions for the field over the next decade.

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Section: Cosmic Dustmentioning

confidence: 99%

Opinion: Recent Developments and Future Directions in Studying the Chemistry of the Mesosphere and Lower Thermosphere

Plane

Gumbel

Kalogerakis

et al. 2023

Preprint

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“…Lidars typically measure at one location only. However, recent developments promise to cover a substantial horizontal region [VAHCOLI = Vertical And Horizontal COverage by LIdar (Lübken and Höffner, 2021)].…”

Section: The Thermal Structure Of the Mltmentioning

confidence: 99%

“…Lidars offer the only method to measure GW and tides quasicontinuously (clear sky conditions provided) from the troposphere to the lower thermosphere, both in temperatures (potential energy) and in winds (kinetic energy). Recent developments in lidar technology promise to extend this capability from local to regional scales (Lübken and Höffner, 2021). Note that the morphology of gravity waves can only be treated correctly if the background wind field is known, which is nowadays the case for some lidars (Baumgarten, 2010;Lübken and Höffner, 2021).…”

Section: Gravity Waves and Tidesmentioning

confidence: 99%

“…Recent developments in lidar technology promise to extend this capability from local to regional scales (Lübken and Höffner, 2021). Note that the morphology of gravity waves can only be treated correctly if the background wind field is known, which is nowadays the case for some lidars (Baumgarten, 2010;Lübken and Höffner, 2021).…”

Section: Gravity Waves and Tidesmentioning

confidence: 99%

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Physics in the mesosphere/lower thermosphere: A personal perspective

Lübken

2022

Front. Astron. Space Sci.

Self Cite

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The scope of this paper is to present some progress being made in the last few decades regarding some aspects of physical processes in the mesosphere/lower thermosphere and to point to some open questions. This summary is presented from a personal perspective, i.e., this is not a review of a certain science topic. Most citations reflect my own work or are representative examples only. They are not meant to be complete or comprehensive.

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“…For understanding large scale phenomena like gravity waves and tides in the middle atmosphere, the IAP developed VAHCOLI (Vertical And Horizontal COverage by LIdar) [1] a compact and transportable Doppler Lidar platform with daylight capability. The system is capable of studying Mie scattering (aerosols), Rayleigh scattering (air molecules) and resonance fluorescence on free potassium atoms from the troposphere to the lower thermosphere.…”

Section: Introductionmentioning

confidence: 99%

Aerosol measurements in the tropo- and stratosphere by spectral splitting of Rayleigh and Mie signals within a compact lidar of 1 m3

Froh

Höffner

Mauer

et al. 2022

Remote Sensing of Clouds and the Atmosphere XXVII

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Doppler lidars with daylight capability are challenging systems because of the small field of view (FOV), spectral filtering, and other additional subsystems required compared to observations at night. A universal Doppler lidar platform with all the required technologies for automatic operation is assembled. By combining a novel narrow-bandwidth pulsed laser (FWHM ~3 MHz) and a matched interferometer (FWHM ~7.5 MHz) the backscattered signals from molecules and aerosols are separated into two channels within the receiver. By tuning the frequency of the pulsed laser from pulse to pulse with sub-MHz accuracy relative to the interferometer, Doppler-aerosol measurements with largely reduced Rayleigh-signal allow aerosol measurements from ground to ~25 km altitude, including Doppler-wind measurements from the Doppler-shift. The compact lidar (1m 3 ) is built for automatic 24/7 operation and comprises a novel diodepumped alexandrite ring-laser, a 50 cm-telescope and a receiver for solar background free aerosol measurements. The combination of cost-efficient design and fast assembling of such a system allows the construction of a Doppler lidar network with identical units. Such a network can address a wide range of horizontal and vertical scales.

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VAHCOLI, a new concept for lidars: technical setup, science applications, and first measurements

Cited by 13 publications

References 104 publications

Opinion: Recent Developments and Future Directions in Studying the Chemistry of the Mesosphere and Lower Thermosphere

Opinion: Recent Developments and Future Directions in Studying the Chemistry of the Mesosphere and Lower Thermosphere

Physics in the mesosphere/lower thermosphere: A personal perspective

Aerosol measurements in the tropo- and stratosphere by spectral splitting of Rayleigh and Mie signals within a compact lidar of 1 m3

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