Dirk Heinecke
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View article: Development and test of a broadband absolute frequency reference with sub-MHz precision based on a GHz mode locked laser source
Development and test of a broadband absolute frequency reference with sub-MHz precision based on a GHz mode locked laser source Open
de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.
View article: Design and pre-development of an airborne multi-species differential absorption Lidar system for water vapor and HDO isotope, carbon dioxide, and methane observation
Design and pre-development of an airborne multi-species differential absorption Lidar system for water vapor and HDO isotope, carbon dioxide, and methane observation Open
We report on the current design and preliminary developments of the airborne Lidar Emitter and Multi-species greenhouse gases Observation iNstrument (LEMON), which is aiming at probing H2O and its isotope HDO at 1982 nm, CO2 at 2051 nm, an…
View article: Frequency comb based absolute frequency reference design for future spaceborne multi species differential absorption lidar systems for green-house gases monitoring
Frequency comb based absolute frequency reference design for future spaceborne multi species differential absorption lidar systems for green-house gases monitoring Open
International audience
View article: High Energy Parametric Laser Source and Frequency-Comb-Based Wavelength Reference for CO2 and Water Vapor DIAL in the 2 µm Region: Design and Pre-Development Experimentations
High Energy Parametric Laser Source and Frequency-Comb-Based Wavelength Reference for CO2 and Water Vapor DIAL in the 2 µm Region: Design and Pre-Development Experimentations Open
We present a differential absorption lidar (DIAL) laser transmitter concept designed around a Nested Cavity Optical Parametric Oscillator (NesCOPO) based Master Oscillator Power Amplifier (MOPA). The spectral bands are located around 2051 …
View article: Flight design of the absolute frequency reference unit for the methane-sensing LIDAR Mission MERLIN
Flight design of the absolute frequency reference unit for the methane-sensing LIDAR Mission MERLIN Open
Light detection and ranging (LIDAR) systems have become an important technology in a variety of industrial and scientific applications.In spectroscopy, LIDAR systems can improve the sensitivity by orders of magnitude but require the laser …
View article: Unambiguous real-time terahertz frequency metrology using dual 10 GHz femtosecond frequency combs
Unambiguous real-time terahertz frequency metrology using dual 10 GHz femtosecond frequency combs Open
Terahertz frequency metrology by radio frequency downconversion using femtosecond optical sampling relies on the harmonic factor retrieval between the terahertz frequency and the optical sampling rate. At typical femtosecond laser repetiti…
View article: The absolute frequency reference unit for the methane-sensing lidar mission Merlin
The absolute frequency reference unit for the methane-sensing lidar mission Merlin Open
The French-German Methane Remote Sensing LIDAR Mission (MERLIN) planned for launch in 2020 aims to provide a global methane concentration map. The instrument is a differential absorption LIDAR (DIAL) system measuring the column-weighted dr…
View article: Ultrafast time-domain spectroscopy system using 10 GHz asynchronous optical sampling with 100 kHz scan rate
Ultrafast time-domain spectroscopy system using 10 GHz asynchronous optical sampling with 100 kHz scan rate Open
An ultrafast time-domain spectroscopy system employing asynchronous optical sampling at a repetition rate of 10 GHz is presented. Two ultra-compact Ti:sapphire femtosecond ring lasers allow to achieve scan rates as high as 100 kHz for a 10…