@misc{DuesbergBachmannEdleretal., author = {D{\"u}sberg, Felix and Bachmann, Michael and Edler, Simon and Pahlke, Andreas and Langer, Christoph and Prommesberger, Christian and Schreiner, Rupert and Bunert, Erik and Wendt, Cornelius and Zimmermann, Stefan}, title = {Novel Non-Radiative Electron Source}, series = {43rd International Symposium of Capillary Chromatography \& 16h GC x GC Symposium 2019}, journal = {43rd International Symposium of Capillary Chromatography \& 16h GC x GC Symposium 2019}, abstract = {Recently a non-radioactive electron capture detector based on a thermionic electron emitter has been demonstrated [1]. Using field emitter arrays (FEAs) would yield non-radioactive portable low power devices with fast switching capability. By combining FEAs with a vacuum-sealed housing and an electron transparent membrane window, such electron sources can be operated in an ambient pressure environment.}, language = {en} } @article{BeckerBoehmChavezetal., author = {Becker, Tatiana I. and B{\"o}hm, Valter and Chavez, Jhohan and Odenbach, Stefan and Raikher, Yuriy L. and Zimmermann, Klaus}, title = {Magnetic-field-controlled mechanical behavior of magneto-sensitive elastomers in applications for actuator and sensor systems}, series = {Archive of Applied Mechanics}, volume = {89}, journal = {Archive of Applied Mechanics}, number = {1}, publisher = {Springer Nature}, doi = {10.1007/s00419-018-1477-4}, pages = {133 -- 152}, abstract = {The development of actuator and sensor systems with complex adaptive behavior and operating sensitivity is one of the actual scientific challenges. Smart materials like magneto-sensitive elastomers (MSEs) offer great potential for designing such intelligent devices, because they possess unique magnetic-field-dependent properties. The present paper deals with investigations of the free and forced vibrational behavior displayed by cantilever beams of MSEs containing magnetically soft particles in a uniform magnetic field. It is shown experimentally as well as theoretically that the first bending eigenfrequency of MSE beams depends strongly on the strength of an applied magnetic field. The proposed magneto-mechanical model is based on the vibrational dynamics of thin rods and predicts reliably the amplitude-frequency characteristics depending on the geometric configuration of the MSE and its material parameters. It is found that the vibration response of an MSE beam under kinematic excitation of its base can be modified indirectly by a magnetic field control due to the change of the vibration characteristics. As a result, the resonance can occur in different ranges of the excitation frequency. The dependencies of the amplification ratio on the excitation frequency are obtained experimentally and compared with the result provided by the theoretical model. Moreover, investigations on the potential use of the field-induced plasticity effect of MSEs in form-fit gripper applications are presented. This effect can be used to realize shape adaptable system parts. It is found that the mechanical properties of each component and its concentration within the mixture have an impact on the mechanical behavior of the whole MSE compound. Such parameters as the strength of magnetic field and geometry of the MSE sample have influence on the quality of shape adaptation. The evidence presented provides a good basis for the realization of MSE-based actuator and sensor systems with adaptable sensitivity.}, language = {en} } @article{SchuemannMorichKaufholdetal., author = {Sch{\"u}mann, Malte and Morich, J. and Kaufhold, T. and B{\"o}hm, Valter and Zimmermann, Klaus and Odenbach, Stefan}, title = {A mechanical characterisation on multiple timescales of electroconductive magnetorheological elastomers}, series = {Magnetism and Magnetic Materials}, volume = {453}, journal = {Magnetism and Magnetic Materials}, number = {May}, publisher = {Elsevier}, doi = {10.1016/j.jmmm.2018.01.029}, pages = {198 -- 205}, abstract = {Magnetorheological elastomers are a type of smart hybrid material which combines elastic properties of a soft elastomer matrix with magnetic properties of magnetic micro particles. This leads to a material with magnetically controllable mechanical properties of which the magnetorheological effect is the best known. The addition of electroconductive particles to the polymer mix adds electrical properties to the material behaviour. The resulting electrical resistance of the sample can be manipulated by external magnetic fields and mechanical loads. This results in a distinct interplay of mechanical, electrical and magnetic effects with a highly complex time behaviour. In this paper a mechanical characterisation on multiple time scales was conducted to get an insight on the short and long-term electrical and mechanical behaviour of this novel material. The results show a complex resistivity behaviour on several timescales, sensitive to magnetic fields and strain velocity. The observed material exhibits fatigue and relaxation behaviour, whereas the magnetorheological effect appears not to interfere with the piezoresistive properties.}, language = {en} } @inproceedings{HerdlKueddelsmannSchelsetal., author = {Herdl, Florian and Kueddelsmann, Maximillian J. and Schels, Andreas and Bachmann, Michael and Edler, Simon and Wohlfartsst{\"a}tter, Dominik and D{\"u}sberg, Felix and Prugger, Alexander and Dillig, Michael and Dams, Florian and Schreiner, Rupert and Coile{\´a}in, Cormac {\´O}. and Zimmermann, Stefan and Pahlke, Andreas and Duesberg, Georg S.}, title = {Characterization and Operation of Graphene-Oxide-Semiconductor Emitters at Atmospheric Pressure Levels}, series = {2023 IEEE 36th International Vacuum Nanoelectronics Conference (IVNC), 10-13 July 2023, Cambridge, MA, USA}, booktitle = {2023 IEEE 36th International Vacuum Nanoelectronics Conference (IVNC), 10-13 July 2023, Cambridge, MA, USA}, publisher = {IEEE}, isbn = {979-8-3503-0143-4}, doi = {10.1109/IVNC57695.2023.10188974}, pages = {14 -- 16}, abstract = {In recent years Graphene-Oxide-Semiconductor (GOS) electron emitters have attracted a lot of interest due to their outstanding durability in modest vacuum conditions. However, the performance at ambient pressure remains largely unexplored. In this study GOS-emitters are characterized in nitrogen and air at atmospheric pressure, and compared with their vacuum characteristics. For this purpose, lifetime and IV-characteristics measurements are shown. Furthermore, the GOS-emitter was operated as an ionization source for ion mobility spectrometry (IMS) at ambient conditions.}, language = {en} } @article{KopperFuerstenauZimmermannetal., author = {Kopper, Andreas and F{\"u}rstenau, Daniel and Zimmermann, Stephan and Klotz, Stefan and Rentrop, Christopher and Rothe, Hannes and Strahringer, Susanne and Westner, Markus}, title = {Shadow IT and Business-Managed IT: A Conceptual Framework and Empirical Illustration}, series = {International Journal of IT/Business Alignment and Governance (IJITBAG)}, volume = {9}, journal = {International Journal of IT/Business Alignment and Governance (IJITBAG)}, number = {2}, publisher = {IGI Global}, doi = {10.4018/IJITBAG.2018070104}, pages = {53 -- 71}, abstract = {Research on Shadow IT is facing a conceptual dilemma in cases where previously "covert" systems developed by business entities are integrated in the organizational IT management. These systems become visible, are thus not "in the shadows" anymore, and subsequently do not fit to existing definitions of Shadow IT. Practice shows that some information systems share characteristics of Shadow IT but are created openly in alignment with the IT organization. This paper proposes the term "Business-managed IT" to describe "overt" information systems developed or managed by business entities and distinguishes it from Shadow IT by illustrating case vignettes. Accordingly,our contribution is to suggest a concept and its delineation against other concepts. In this way, IS researchers interested in IT originated from or maintained by business entities can construct theories with a wider scope of application that are at the same time more specific to practical problems. In addition, the terminology allows to value potentially innovative developments by business entities more adequately.}, subject = {Unternehmen}, language = {en} }