Welcome to the Kaiserslautern University of Applied Sciences!
Scholarship for talented students with special social commitment.
[Translate to Englisch:] Die Hochschulleitung vergibt jährlich Stipendien für Studierende, die sich in besonderer Weise gesellschaftlich engagieren. Erfahren Sie hier mehr zu den Bewerbungsvoraussetzungen und Vorg
Offered Courses
Over 80 innovative Bachelor's, Master's and continuing education degree programmes in the fields of natural and engineering sciences, design, economics, information and communication sciences are on offer. The degree programmes are practical, interdisciplinary and flexible, and are characterised above all by their regional relev
We have created our policy in the form of several concepts, which can be seen here.
The Ministry enters into agreements on objectives with Rhineland-Palatinate's universities in order to increase the universities' scope for action.
The focus here is on the joint and cooperative shaping of processes in science policy and the effectiv
Kaiserslautern University of Applied Sciences - from the region, for the region, into the world
The Kaiserslautern University of Applied Sciences is a modern university for applied sciences and design. Around 5,500 students from more than 80 countries and some 150 professors study, teach, and research in five faculties at the Kaiserslautern, Pirma
er Ho ch s chu le er n hatronik ec Elektrote ch n Systeme d M he isc t l au Kaisers Wir suchen für das Thema Unterstützung bei der Entwicklung eines modularen Datenloggers (Projektarbeit und Praxisphase) einen Studierenden im Bachelorstudiengang ET oder MT Elektromagnetische Systeme der Mechatronik (Prof. Urschel) Ausschreibung vom 29.
Use of Kerr microscopy to characterise the development of damage in steels
The Kerr microscope used in the project is a two-in-one system. Fig. 1 therefore shows both the near-field microscopy with the corresponding non-magnetic Epiplan Neofluar objectives (20x0.5 Pol; 50x0.8 Pol; 100x1.3 Pol) and the arrangement of the far-field (Carl Zeiss Op
The magneto-optical Kerr effect, discovered by John Kerr in 1876 and named after him, describes the change in the properties of polarised light when reflected by a magnetic surface. This involves the rotation of the plane of polarisation on the one hand and the change in intensity of the polarised light on the other. This is illustrated in Fig. 2
