Your search keyword '"Kanitz, Thomas"' showing total 7 results

1. Initial Assessment of the Performance of the First Wind Lidar in Space on Aeolus

Author

Reitebuch Oliver, Lemmerz Christian, Lux Oliver, Marksteiner Uwe, Rahm Stephan, Weiler Fabian, Witschas Benjamin, Meringer Markus, Schmidt Karsten, Huber Dorit, Nikolaus Ines, Geiss Alexander, Vaughan Michael, Dabas Alain, Flament Thomas, Stieglitz Hugo, Isaksen Lars, Rennie Michael, de Kloe Jos, Marseille Gert-Jan, Stoffelen Ad, Wernham Denny, Kanitz Thomas, Straume Anne-Grete, Fehr Thorsten, von Bismarck Jonas, Floberghagen Rune, and Parrinello Tommaso

Subjects

Physics, QC1-999

Abstract

Soon after its successful launch in August 2018, the spaceborne wind lidar ALADIN (Atmospheric LAser Doppler INstrument) on-board ESA’s Earth Explorer satellite Aeolus has demonstrated to provide atmospheric wind profiles on a global scale. Being the first ever Doppler Wind Lidar (DWL) instrument in space, ALADIN contributes to the improvement in numerical weather prediction (NWP) by measuring one component of the horizontal wind vector. The performance of the ALADIN instrument was assessed by a team from ESA, DLR, industry, and NWP centers during the first months of operation. The current knowledge about the main contributors to the random and systematic errors from the instrument will be discussed. First validation results from an airborne campaign with two wind lidars on-board the DLR Falcon aircraft will be shown.

Published

2020

2. ESA’s Lidar Missions Aeolus and EarthCARE

Author

Kanitz Thomas, Ciapponi Alessandra, Mondello Alessia, D’Ottavi Alessandro, Mateo Ana Baselga, Straume Anne-Grete, Voland Christoph, Bon Didier, Checa Elena, Alvarez Emilio, Bellucci Ida, Do Carmo Joao Pereira, Brewster John, Marshall Jon, Schillinger Marc, Hannington Mark, Rennie Michael, Reitebuch Oliver, Lecrenier Olivier, Bravetti Paolo, Sacchieri Valentina, De Sanctis Valeria, Lefebvre Alain, Parrinello Tommaso, and Wernham Denny

Subjects

Physics, QC1-999

Abstract

ESAs Earth Explorer Aeolus was launched in August 2018. Aboard the first spaceborne wind lidar ALADIN (Atmospheric LAser Doppler INstrument) was switched on in early September 2018 and demonstrated the capability to provide atmospheric wind profiles globally from particle and molecular backscatter. In doing so, it will contribute to the improvement in numerical weather prediction (NWP) and the understanding of global dynamics. At the same, it is a major step for powerful and frequency stabilized ultraviolet (UV) lasers for space applications. In parallel, ESA and its partners continue the development of this technology by setting up further ground tests based on Aeolus, and preparing the next milestone with ATLID (ATmospheric LIDar) for the Earth Cloud, Aerosol and Radiation Explorer (EarthCARE) mission. ATLID is currently fully integrated and getting prepared for its on-ground testing.

Published

2020

3. Retrieval of atmospheric backscatter and extinction profiles with the aladin airborne demonstrator (A2D)

Author

Geiss Alexander, Marksteiner Uwe, Lux Oliver, Lemmerz Christian, Reitebuch Oliver, Kanitz Thomas, and Straume-Lindner Anne Grete

Subjects

Physics, QC1-999

Abstract

By the end of 2017, the European Space Agency (ESA) will launch the Atmospheric laser Doppler instrument (ALADIN), a direct detection Doppler wind lidar operating at 355 nm. An important tool for the validation and optimization of ALADIN’s hardware and data processors for wind retrievals with real atmospheric signals is the ALADIN airborne demonstrator A2D. In order to be able to validate and test aerosol retrieval algorithms from ALADIN, an algorithm for the retrieval of atmospheric backscatter and extinction profiles from A2D is necessary. The A2D is utilizing a direct detection scheme by using a dual Fabry-Pérot interferometer to measure molecular Rayleigh signals and a Fizeau interferometer to measure aerosol Mie returns. Signals are captured by accumulation charge coupled devices (ACCD). These specifications make different steps in the signal preprocessing necessary. In this paper, the required steps to retrieve aerosol optical products, i. e. particle backscatter coefficient βp, particle extinction coefficient αp and lidar ratio Sp from A2D raw signals are described.

Published

2018

4. Aeolus End-To-End Simulator and Wind Retrieval Algorithms up to Level 1B

Author

Reitebuch Oliver, Marksteiner Uwe, Rompel Marc, Meringer Markus, Schmidt Karsten, Huber Dorit, Nikolaus Ines, Dabas Alain, Marshall Jonathan, de Bruin Frank, Kanitz Thomas, and Straume Anne-Grete

Subjects

Physics, QC1-999

Abstract

The first wind lidar in space ALADIN will be deployed on ESA´s Aeolus mission. In order to assess the performance of ALADIN and to optimize the wind retrieval and calibration algorithms an end-to-end simulator was developed. This allows realistic simulations of data downlinked by Aeolus. Together with operational processors this setup is used to assess random and systematic error sources and perform sensitivity studies about the influence of atmospheric and instrument parameters.

Published

2018

5. ESA’s spaceborne lidar mission ADM-Aeolus; project status and preparations for launch

Author

Straume Anne Grete, Elfving Anders, Wernham Denny, de Bruin Frank, Kanitz Thomas, Schuettemeyer Dirk, Bismarck Jonas von, Buscaglione Fabio, Lecrenier O., and McGoldrick Phil

Subjects

Physics, QC1-999

Abstract

ESA’s Doppler Wind lidar mission, the Atmospheric Dynamics Mission (ADM-Aeolus, hereafter abbreviated to Aeolus), was chosen as an Earth Explorer Core mission within the Living Planet Programme in 1999. It shall demonstrate the potential of space-based Doppler Wind lidars for operational measurements of wind profiles and their use in Numerical Weather Prediction (NWP) and climate research. Spin-off products are profiles of cloud and aerosol optical properties. Aeolus carries the novel Doppler Wind lidar instrument ALADIN. The mission prime is Airbus Defence & Space UK (ADS-UK), and the instrument prime is Airbus Defence & Space France (ADS-F).

Published

2018

6. HETEAC: The Aerosol Classification Model for EarthCARE

Author

Wandinger Ulla, Baars Holger, Engelmann Ronny, Hünerbein Anja, Horn Stefan, Kanitz Thomas, Donovan David, van Zadelhoff Gerd-Jan, Daou David, Fischer Jürgen, von Bismarck Jonas, Filipitsch Florian, Docter Nicole, Eisinger Michael, Lajas Dulce, and Wehr Tobias

Subjects

Physics, QC1-999

Abstract

We introduce the Hybrid End-To-End Aerosol Classification (HETEAC) model for the upcoming EarthCARE mission. The model serves as the common baseline for development, evaluation, and implementation of EarthCARE algorithms. It shall ensure the consistency of different aerosol products from the multi-instrument platform as well as facilitate the conform specification of broad-band optical properties necessary for the EarthCARE radiative closure efforts. The hybrid approach ensures the theoretical description of aerosol microphysics consistent with the optical properties of various aerosol types known from observations. The end-to-end model permits the uniform representation of aerosol types in terms of microphysical, optical and radiative properties.

Published

2016

7. ESA’s Spaceborne Lidar Mission ADM-Aeolus; Recent Achievements and Preparations for Launch

Author

Straume Anne Grete, Elfving Anders, Wernham Denny, Culoma Alain, Mondin Linda, de Bruin Frank, Kanitz Thomas, Schuettemeyer Dirk, Buscaglione Fabio, and Dehn Angelika

Subjects

Physics, QC1-999

Abstract

Within ESA’s Living Planet Programme, the Atmospheric Dynamics Mission (ADM-Aeolus) was chosen as the second Earth Explorer Core mission in 1999. It shall demonstrate the potential of high spectral resolution Doppler Wind lidars for operational measurements of wind profiles and their use in Numerical Weather Prediction (NWP). Spin-off products are profiles of cloud and aerosol optical properties. ADM-Aeolus carries the novel Doppler Wind lidar instrument ALADIN. Recently the two ALADIN laser transmitters were successfully qualified and delivered for further instrument integration. The instrument delivery will follow later this year and the satellite qualification and launch readiness is scheduled for 2016. In February 2015, an Aeolus Science and Calibration and Validation (CAL/VAL) Workshop was held in ESA-ESRIN, Frascati, Italy, bringing industry, the user community and ESA together to prepare for the Aeolus Commissioning and Operational Phases. During the Workshop the science, instrument and product status, commissioning phase planning and the extensive number of proposals submitted in response to the Aeolus CAL/VAL call in 2014 were presented and discussed. A special session was dedicated to the Aeolus CAL/VAL Implementation Plan. In this paper, the Aeolus mission, status and launch preparation activities are described.

Published

2016