@inproceedings{VersenKipfelsberger2014, author = {Versen, Martin and Kipfelsberger, S.}, title = {Introduction to microcomputer technology with the MSP430 Launch Pad in remote labs}, series = {Global Engineering Education Conference (EDUCON), 2014 IEEE}, booktitle = {Global Engineering Education Conference (EDUCON), 2014 IEEE}, year = {2014}, abstract = {Texas Instruments' MSP430 Launch Pad is used as a key component for remote labs that complement an introduction course to microcomputer technology in the bachelor program Mechatronic at the University of Applied Sciences in Rosenheim. The remote labs use breakout boards and include a timer experiment with generation of pulse width modulation signals, I2C communication and analog to digital conversion.}, language = {en} } @inproceedings{VersenHayn2014, author = {Versen, Martin and Hayn, M.}, title = {Introduction to Verification and Test Using a 4-Bit Arithmetic Logic Unit Including a Failure Module in a Xilinx XC9572XL CPLD}, series = {Proceedings of the 40th ISTFA 2014}, booktitle = {Proceedings of the 40th ISTFA 2014}, year = {2014}, language = {en} } @article{PremkeWirthsPentlehneretal.2014, author = {Premke, Tobias and Wirths, Eva-Maria and Pentlehner, Dominik and Riechers, Ricarda and Lehnig, Rudolf and Vdovin, Alexander and Slenczka, Alkwin}, title = {Microsolvation of molecules in superfluid helium nanodroplets revealed by means of electronic spectroscopy}, series = {Frontiers in Chemistry}, volume = {2014}, journal = {Frontiers in Chemistry}, number = {2}, year = {2014}, abstract = {The empirical model explaining microsolvation of molecules in superfluid helium droplets proposes a non-superfluid helium solvation layer enclosing the dopant molecule. This model warrants an empirical explanation of any helium induced substructure resolved for electronic transitions of molecules in helium droplets. Despite a wealth of such experimental data, quantitative modeling of spectra is still in its infancy. The theoretical treatment of such many-particle systems dissolved into a quantum fluid is a challenge. Moreover, the success of theoretical activities relies also on the accuracy and self-critical communication of experimental data. This will be elucidated by a critical resume of our own experimental work done within the last ten years. We come to the conclusion that spectroscopic data and among others in particular the spectral resolution depend strongly on experimental conditions. Moreover, despite the fact that none of the helium induced fine structure speaks against the empirical model for solvation in helium droplets, in many cases an unequivocal assignment of the spectroscopic details is not possible. This ambiguity needs to be considered and a careful and critical communication of experimental results is essential in order to promote success in quantitatively understanding microsolvation in superfluid helium nanodroplets.}, language = {en} }