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31 results on '"Klingenberg, Hans"'

1. Fast tuning of external-cavity diode lasers

Author

Mahnke, Peter, Klingenberg, Hans H., and Zirnig, Werner

Subjects
Semiconductor lasers -- Analysis, Piezoelectricity -- Influence, Astronomy, Physics
Abstract

We report on a method for characterizing the tuning capabilities of small-bandwidth external-cavity diode lasers. The step response of a piezo-driven Littman-Metcalf external-cavity diode laser and the compensation of its optoelectromechanical frequency response is investigated. When an approximately 50-V compensated Gaussian pulse is applied to the piezo element, a detuning of 13.6 GHz is observed. This modification of the laser is useful for several spectroscopical applications and as a tunable seed laser for lidar applications. OCIS codes: 120.0120, 300.6260, 140.3600.

Published
2002

26. Elements of Nordic Practice 2001/2002: Denmark.

Author

Klingenberg, Hans

Subjects
INTERNATIONAL law, INTERNATIONAL relations, TORTURE prevention, COUNTERTERRORISM
Abstract

Examines the Danish state practice in the field of international law during the years 2001 to 2002. Ratification of the Vienna convention on diplomatic relations; Convention against torture and other cruel, inhuman and degrading treatment or punishment; Statute for the International Criminal Court; European human rights convention; Response to the attack against Radio Television Serbia by the North Atlantic Treaty Organization; Implementation of the United Nations Security Council resolution against terrorism.

Published
2003
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27. Lidar Research Network Water Vapor and Wind

Author

Wulfmeyer, Volker, Bauer, Hans-Stefan, Crewell, Susanne, Ehret, Gerhard, Reitebuch, Oliver, Werner, Christian, Wirth, Martin, Engelbart, Dirk, Rhodin, Andreas, Wergen, Werner, Giesen, Adolf, Grassl, Hartmut, Huber, Günter, Klingenberg, Hans, and Mahnke

Abstract

This paper reports on a workshop which took place on April 08/09, 2002 at the University of Hohenheim, Stuttgart, Germany. During this workshop, laser and lidar experts as well as experts in atmospheric sciences came together. The goals of this workshop were to establish an interdisciplinary network on lidar research, to develop operational reference systems for water vapor and wind lidar measurements and to demonstrate the significant impact of water vapor and wind lidar systems on climate and weather research. The main result was the setup of an interdisciplinary expert network "Lidar research water vapor and wind". This network is responding to large gaps in our knowledge of the global water vapor and wind distribution and shall improve weather and climate research. The network has mainly the following objectives: 1) The development of high-performance, high-power laser transmitters for wind and water vapor measurements based on novel pump laser designs, 2) research on efficient frequency conversion techniques of the high-power pump light into wavelengths required for water vapor and wind lidar systems, 3) the development of an operational reference water vapor differential absorption lidar system, also as a demonstrator for space borne missions like the Water Vapor Lidar Experiment in Space (WALES), 4) the performance of observation system simulation experiments (OSSEs) in order to demonstrate the impact of lidar data on nowcasting and short-range weather forecast, 5) the extension of the application of current and future lidar data in combination with other instruments for process studies, 6) the design of future field studies including a new generation of remote sensing systems. The network shall investigate key questions in atmospheric sciences, particularly, the role of water vapor in the Earth's weather and climate system by the application of lidar systems with unprecedented accuracy, resolution and range. Am 8. und 9. April 2002 fand ein Arbeitstreffen an der UniversitÄt Hohenheim in Stuttgart statt. Bei diesem Treffen kamen erstmals Experten aus der Hochleistungslasertechnologie sowie aus der Lidar- und AtmosphÄrenforschung zusammen. Die Ziele dieses Treffens war der Aufbau eines Netzwerks Lidarforschung, die Entwicklung operationeller Lidar-Referenzsysteme fÜr Wasserdampf- und Windmessungen und die Demonstration des signifikanten positiven Einflusses dieser Systeme auf die Wetter- und Klimaforschung. Das Hauptresultat war die GrÜndung eines transdisziplinÄren Expertennetzwerkes ,,Lidarforschung Wasserdampf und Wind". Dieses Netzwerk hat es sich zur Aufgabe gemacht, die gewaltigen LÜcken in unserem Wissen Über die globalen Wasserdampf- und Windfelder zu schließen und signifikante Fortschritte in der Wetterund Klimaforschung zu erzielen. Im Einzelnen hat das Netzwerk die folgenden Zielsetzungen: 1) Die Entwicklung von Hochleistungslasertransmittern fÜr Wind- und Wasserdampfmessungen, 2) die Entwicklung von effizienten Frequenzkonversionstechniken, um die fÜr Wind- und Wasserdampf-Lidar-Messungen erforderlichen Frequenzen zu erreichen, 3) der Aufbau eines operationellen Wasserdampf-Differential Absorption Lidar-Systems auch als Demonstrator fÜr Weltraummissionen wie das Water Vapor Lidar Experiment in Space (WALES), 4) die DurchfÜhrung von Observation System Simulation Experiments (OSSEs) zur Demonstration des signifikanten positiven Einflusses der Lidar-Daten auf die Kurz- und Mittelfristwettervorhersage, 5) die Ausweitung der Anwendung von Lidar-Daten in Synergie mit anderen Instrumenten bei Prozessstudien, 6) die Konzeption zukÜnftiger Messkampagnen unter BerÜcksichtigung der neuesten Generation von Fernerkundungssystemen. Durch die Anwendung von Lidar-Systemen mit bisher unerreichter Auflösung, Reichweite und Genauigkeit soll das Netzwerk SchlÜsselprozesse in der AtmosphÄre untersuchen, insbesondere die Rolle der Wasserdampfes im Wetter- und Klimasystem der Erde.

Published
2003
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28. Creating A New, Safer Generation of Hyaluronic Acid for Pharmaceutical Applications.

Author

Klingenberg, Hans Ole

Subjects
HYALURONIC acid, BACILLUS subtilis, MANUFACTURING processes, DRUG development, INDUSTRIAL contamination, PHARMACEUTICAL industry
Abstract

The article offers information on the creation of new generation of hyaluronic acid (HA) for pharmaceutical purposes. It mentions that the new production process based on a non-pathogenic bacterium, bacillus subtilis, works across three stages such as recovery/filtration, fermentation, and separation. It notes that the use of bacillus subtilis in the HA production presents minimal risks of contamination.

Published
2013

29. [Brev til DKNVS]

Author

Klingenberg, Hans Hagbarth and Det Kongelige Norske Videnskabers Selskab (DKNVS)

Abstract

S��ker stillingen som oppsynsmann ved VS' zoologiske samlinger

Published
1843
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30. Hochempfindliche Laserdiagnostik

Author

Riede, Wolfgang, Klingenberg, Hans, Schröder, Helmut, Allenspacher, Paul, and Mahnke, Peter

Subjects
Differential Absorption LIDAR, Laser-induziertePlasma-Spektroskopie, Laserstreulichtsensorik, Laser-induzierte Fluoreszenz

31. Filling the Gap.

Author

Klingenberg, Hans Ole

Abstract

The article provides information on rising demand of non surgical hyaluronic acid dermal fillers procedures in biotechnology sector. Various challenges for manufacturing hyaluronic acid dermal fillers are discussed. It is stated that this innovative technology offers great effectiveness and easy administration for preparing safe and consistent dermal filler products.

Published
2011

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