In reviewed journals:

2019:

V. Kleshch, P. Serbun, D. Lützenkirchen-Hecht, A. Orekhov, V. Ivanov, C. Prommesberger, C. Langer, R. Schreiner and A. N. Obraztsov., "A comparative study of field emission from pristine, ion-treated and tungsten nanoparticule-decorated p-type Si tips, Phys. Status Solidi B, 1800646 (2019).

V. Porshyn, P. Serbun, D. Lützenkirchen-Hecht, "Laser-induced melting and ablation of niobium (110) single crystals", Phys. Rev. Accel. Beams 22, 023101 (2019).

2018:

J. Breuer, M. Bachmann, F. Düsberg, A. Pahlke, S. Edler, C. Langer, C. Prommesberger, R. Ławrowski, R. Schreiner, P. Serbun and D. Lützenkirchen-Hecht: "Extraction of the current distribution out of saturated integral measurement data of p-type silicon field emitter arrys", J. Vac. Sci. Technol. B. 36, 051805 (2018).

2017:

V. I. Kleshch, V. A. Eremina, P. Serbun, A. S. Orekhov, D. Luetzenkirchen-Hecht, E. D. Obraztsova and A. N. Obraztsov: " A comparative study of field emission from semiconducting and metallic single-walled carbon nanotubes", Phys. Status Solidi b 255 1700268 (2017).

V. I. Kleshch, D. A. Bandurin, P. Serbun, R. R. Ismagilov, D. Luetzenkirchen-Hecht, G. Mueller, and A. N. Obraztsov: "Field electron emission from CVD nanocarbon films containing scrolled grahene structures"Phys. Status Solidi b 255 1700270 (2017),

V. Porshyn, V. I. Kleshch, E, A. Obraztsova, A. L. Chuvilin, D. Lützenkirchen-Hecht, and A. N. Obraztsov: "Photoinduced effects in field electron emission from diamond needles", Appl. Phys. Lett. 110, 182101 (2017).

2016:

M. Bachmann, F. Dams, F. Düsberg, M. Hofmann, A. Pahlke, C. Langer, C. Prommesberger, R. Ławrowski, R Schreiner, P. Serbun, D. Lützenkirchen-Hecht, and G. Müller: "Extraction of the characteristics of current-limiting elements from field emission measurement data", J. Vac. Sci. Technol. B. Microelectron. Mater. Process. Meas. Phenom., vol. 35, no. 2, p. 02C103 (2016).

V. Porshyn, S. Mingels, D. Lützenkirchen-Hecht, and G. Müller: "Laser-initiated explosive electron emission from flat germanium crystals", J. Appl. Phys. 120, 043303/1-8 (2016).

S. Mingels, V. Porshyn, C. Prommesberger, C. Langer, R. Schreiner, D. Lützenkirchen-Hecht, and G. Müller: ”Photosensitivity of p-type black Si field emitter arrays”, J. Appl. Phys. 119, 165104/1-8 (2016).

C. Langer, C. Prommesberger, R. Ławrowski, R Schreiner, P. Serbun, G. Müller, F. Düsberg, M. Hofmann, M. Bachmann, and A. Pahlke: ”Field emission properties of p-type black silicon on pillar structures”, J. Vac. Sci. Technol. B 34, 02G107/1-7 (2016).

2015:

S. Lagotzky, R. Barday, A. Jankowiak, T. Kamps, C. Klimm, J. Knobloch, G. Müller, B. Senkovskiy, and F. Siewert: ”Prevention of electron field emission from molybdenum substrates for photocathodes by the native oxide layer”, Eur. Phys. J. Appl. Phys. 70, 21301/1-8 (2015).

S. Mingels, V. Porshyn, B. Bornmann, D. Lützenkirchen-Hecht, and G. Müller: „Sensitive fast electron spectrometer in adjustable triode configuration with pulsed tunable laser for research on photo-induced field emission cathodes”, Rev. Sci. Instrum. 86, 043307/1-9 (2015).

D.A. Bandurin, S. Mingels, V.I. Kleshch, D. Lützenkirchen-Hecht, G. Müller, and A.N. Obraztsov: „Field emission spectroscopy evidence for dual-barrier electron tunnelling in nanographite”, Appl. Phys. Lett. 106, 233112/1-5 (2015).

S. Lagotzky, G. Müller: ”Statistical model for field emitter activation on metallic surfaces used in high-gradient accelerating structures”, Nucl. Instrum. and Meth. in Phys. Res. A 806, 193-198 (2016).

2013:

A. Navitski, S. Lagotzky, D. Reschke, X. Singer and G. Müller: "Field emitter activation on cleaned Niobium surfaces relevant for superconducting rf technology", Phys. Rev. Special Topics - Accelerators and Beams 16, 112001/1-8 (2013).

P. Serbun, B. Bornmann, A. Navitski, G. Müller, C. Prommesberger, C. Langer, F. Dams, and R. Schreiner: „Stable field emission of single B-doped Si tips and linear current scaling of uniform tip arrays for integrated vacuum microelectronic devices“, J. Vac. Sci. Technol. B 31, 02B101 1-6 (2013).

2012:

F. Dams, A. Navitski, C. Prommesberger, P. Serbun, C. Langer, G. Müller, and R. Schreiner: „Homogeneous field emission cathodes with precisely adjustable geometry fabricated by silicon technology “, IEEE Trans. Electron Devices 59, 2832-2837 (2012).

A. Navitski, P. Serbun, G. Müller, R.K. Joshi, J. Engstler, and J.J. Schneider: “Role of height and contact interface of CNT microstructures on Si for high current field emission cathodes ”, Eur. Phys. J. Appl. Phys. 59, 11302/1-6 (2012).

P. Serbun, F. Jordan, A. Navitski, G. Müller, I. Alber, M.E. Toimil-Molares, and C. Trautmann, „Copper nanocones grown in polymer ion-track membranes as field emitters“, Eur. Phys. J. Appl. Phys. 58, 104027/1-5 (2012).

B. Bornmann, S. Mingels, F. Dams, C. Prommesberger, R. Schreiner, D. Lützenkirchen-Hecht, and G. Müller: "Electron spectrometer in adjustable triode configuration for photo-induced field emission measurements", Rev. Sci. Instrum. 83, 013302 (2012).

2011:

R.K. Joshi, J. Engstler, A. Navitski, V. Sakharuk, G. Müller, and J.J. Schneider: "Gas phase synthesis and field emission properties of 3D aligned double walled carbon nanotube/anatase hybrid architectures", Nanoscale 3, 3258-3264 (2011).

2010:

A. Navitski, G. Müller, V. Sakharuk, A.L. Prudnikava, B.G. Shulitski and V.A. Labunov: ”Efficient high-current field emission from arrays of CNT columns”, J. Vac. Sci. Technol. B 28, C2B14-19 (2010).

2009:

A. Navitski, G. Müller, V. Sakharuk, T. Cornelius, C. Trautmann, and S. Karim: ”Efficient field emission from structured gold nanowire cathodes”, Eur. Phys. J. Appl. Phys. 48, 30502/1-6 (2009).

A. Dangwal-Pandey, G. Müller, D. Reschke, and X. Singer: ”Field emission from crystalline niobium”, Phys. Rev. Special Topics: Accelerators and Beams 12, 023501/1-8 (2009).

2008:

A. Dangwal, C.S. Pandey, G. Müller, S. Karim, T.W. Cornelius and C. Trautmann: ”Field emission properties of electrochemically deposited gold nanowires”, Appl. Phys. Lett. 92, 063115 (2008).

2007:

A. Dangwal, G. Müller, F. Maurer, J. Brötz, and H. Fuess: ”Field emission propeties of bare and gold-coated nickel nanowires grown in polymer ion-track membranes”, J. Vac. Sci. Technol. B 25, 586-589 (2007).

D. Lysenkov, J. Engstler, A. Dangwal, A. Popp, G. Müller, J.J. Schneider, V.M. Janardhanan, O. Deutschmann, P. Strauch, V. Ebert, and J. Wolfrum: ”Nonaligned carbon nanotubes anchored on porous alumina. Formation, process modelling, gas phase analysis and filed emission properties.”, Small 3, p. 974-985 (2007).

A. Dangwal, G. Müller, D. Reschke, K. Flöttmann, and X. Singer: ”Effective removal of field emitting sites from metallic surfaces by dry ice cleaning”, J. Appl. Phys. 102, 044903/1-7 (2007).

2006:

D. Lysenkov and G. Müller: ”Improved current densities of carbon nanotube cathodes by pulsed operation”, J. Vac. Sci. Technol. B 24, 1067-1071 (2006).

A. Dangwal, D. Reschke, and G. Müller: ”DC field emission scanning measurements on electropolished niobium samples”, Physica C 441, 83-88 (2006).

F. Maurer, A. Dangwal, D. Lysenkov, G. Müller, M.E. Toimil-Molares, C. Trautmann, J. Brötz, and H. Fuess: ”Field emission of copper nanowires in polymer ion-track membranes”, Nucl. Instrum. and Meth. in Phys. Res. B 245, 337-341 (2006).

2005:

D. Lysenkov and G. Müller: ”Field emission measurement techniques for the optimisation of carbon nanotube cathodes”, Int. J. Nanotechnology 2, 239-254 (2005).

D. Lysenkov, H. Abbas, G. Müller, J. Engstler, K.P. Budna, and J.J. Schneider: ”Electron field emission from carbon nanotubes on porous alumina”, J. Vac. Sci. Technol. B 23, 809-813 (2005).

2003:

B. Günther, F. Kaldasch, G. Müller, S. Schmitt, T. Henning, R. Huber, and M. Lacher: ”Uniformity and stability of field emission from bare and metal coated Si tip arrays”, J. Vac. Sci. Technol. B 21, 427-432 (2003).

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Contributions to international conferences:

2015:

C. Langer, C. Prommesberger, R. Lawrowski, F. Müller, R. Schreiner, P. Serbun, and G. Müller: ”Enhanced field emission from p-doped black silicon on pillar structures”, Techn. Digest of the 28^th Int. Vacuum Nanoelectronics Conf., Guangzhou, IEEE Xplore, 104-105 (2015).

R. Lawrowski, C. Langer, C. Prommesberger, R. Schreiner, S. Mingels, V. Porshyn, P. Serbun, and G. Müller: ”Field emission from textured GaN with buried double-heterostructures”, Techn. Digest of the 28^th Int. Vacuum Nanoelectronics Conf., Guangzhou, IEEE Xplore, 106-107 (2015).

R. Schreiner, C. Langer, C. Prommesberger, R. Lawrowski, F. Dams, M. Bachmann, F. Düsberg, M. Hofmann, A. Pahlke, P. Serbun, S. Mingels, G. Müller: ”Semiconductor field emission electron sources using a modular system concept for applications in sensors and x-ray sources”, Techn. Digest of the 28^th Int. Vacuum Nanoelectronics Conf., Guangzhou, IEEE Xplore, 178-179 (2015).

J. Kläs, P. Serbun, D. Lützenkirchen-Hecht, G. Müller: ”Low-voltage high-current field emission from a simple pointed graphite emitter tested in a transmission-type X-ray demonstrator”, Techn. Digest of the 28^th Int. Vacuum Nanoelectronics Conf., Guangzhou, IEEE Xplore, 186-187 (2015).

P. Serbun, G. Müller, C. Prommesberger, C. Langer, R. Lawrowski, F. Müller, F. Dams, R. Schreiner: ”Comparison of integral and local field emission properties of Mo-coated p-Si tip arrays”, Techn. Digest of the 28^th Int. Vacuum Nanoelectronics Conf., Guangzhou, IEEE Xplore, 192-193 (2015).

S. Mingels, V. Porshyn, D. Lützenkirchen-Hecht, G. Müller: ”Highly sensitive spectrometer for field emission cathodes under pulsed tunable laser illumination”, Techn. Digest of the 28^th Int. Vacuum Nanoelectronics Conf., Guangzhou, IEEE Xplore, 226-227 (2015).

S. Lagotzky, G. Müller, A. Navitski, A. Prudnikava, Y. Tamashevich: ”Field emission investigation of centrifugal-barrel-polished Nb samples”, Proc. of the 17^th Int. Conf. on RF Superconductivity, Vancouver, jacow.org (2015).

S. Lagotzky and G. Müller: ”Field emission from a thermally oxidized Nb sample”, Proc. of the 17^th Int. Conf. on RF Superconductivity, Vancouver, jacow.org (2015).

2014:

S. Mingels, V. Porshyn, B. Bornmann, D. Lützenkirchen-Hecht, and G. Müller: ”Spectrometer for laser-pulsed electrons from field emission cathodes”, Proc. of the 5^th Int. Particle Acc. Conf., Dresden, jacow.org, 655-657 (2014).

S. Lagotzky and G. Müller: ”Prediction of severe electron loading of high-gradient accelerating structures based on field emission measurements of Nb and Cu samples”, Proc. of the 5^th Int. Particle Acc. Conf., Dresden, jacow.org, 2258-2260 (2014).

S. Lagotzky, P. Serbun, G. Müller, T. Muranaka, and S. Calatroni: ”Enhanced field emission and emitter activation on flat dry-ice cleaned Cu surfaces”, Proc. of the 5^th Int. Particle Acc. Conf., Dresden, jacow.org, 2261-2263 (2014).

R. Barday, A. Jankowiak, T. Kamps, C. Klimm, J. Knobloch, F. Siewert, A. Varykhalov, B. Senkovskiy, S. Lagotzky, and G. Müller: ”Field emission studies of heat-treated Mo substrates”, Proc. of the 5^th Int. Particle Acc. Conf., Dresden, jacow.org, 2955-2957 (2014).

R. Barday, A. Jankowiak, T. Kamps, C. Klimm, J. Knobloch, F. Siewert, A. Varykhalov, B. Senkovskiy, S. Lagotzky, and G. Müller: ”Influence of oxides on the field emission of Molyb-denum”, Proc. of the 10^th Int. Vacuum Electron Sources Conf. IVESC 2014, Saint Petersburg, edited by N. V. Egorov. Piscataway: IEEE (2014).

P. Serbun, D.A. Bandurin, V.I: Kleshch, A.M. Alekseev, G. Müller and A.N. Obraztsov: ”Homogenous low-voltage field emission from nanographite films for cold cathode applications”, Techn. Digest of the 27^th Int. Vacuum Nanoelectronics Conf., Engelberg, IEEE Cat. No. CFP14VAC-PRT, 53-54 (2014).

S. Mingels, G. Müller, D.A. Bandurin, V.I. Kleshch, and A.N. Obraztsov: ”Field emission spectroscopy of nanographite films”, Techn. Digest of the 27^th Int. Vacuum Nanoelectronics Conf., Engelberg, IEEE Cat. No. CFP14VAC-PRT, 139-140 (2014).

C. Langer, R. Lawrowski, C. Prommesberger, F. Dams, P. Serbun, M. Bachmann, G. Müller and R. Schreiner: ”High aspect ratio silicon tip cathodes for application in field emission electron sources”, Techn. Digest of the 27th Int. Vacuum Nanoelectronics Conf., Engelberg, IEEE Cat. No. CFP14VAC-PRT, 222-223 (2014).

2013:

V. Labunov, B. Shulitski, A. Tymoshchyk, I. Kashko, G. Müller, P. Serbun: ”Synthesis of field emission CNT-cathodes with Ni/Al/Mo localized catalyst”, Proc. of Int. Conf. Nanomeeting 2013, Minsk, World Scientific Publ. Singapore, 539-542 (2013).

P. Serbun, G. Müller, A. Tymoshchyk, I. Kashko, B. Shulitski,V. Labunov: ”High field emission current density from structured CNT bundle cathodes”, Techn. Digest of the 26^th Int. Vacuum Nanoelectronics Conf., Roanoke, July 8-12 (2013).

R. Schreiner, C. Langer, C. Prommesberger, S. Mingels, P. Serbun, and G. Müller: ”Field emission from surface textured extraction facets of GaN light emitting diodes”,Techn. Digest of the 26^th Int. Vacuum Nanoelectronics Conf., Roanoke, July 8-12 (2013).

P. Serbun, F. Jordan, G. Müller, I. Alber, M.E. Toimil-Molares, and C. Trautmann: ”Sharp bare and gold-coated copper nanocones with improved field emission performance”, Techn. Digest of the 26^th Int. Vacuum Nanoelectronics Conf., Roanoke, July 8-12 (2013).

S. Mingels, B. Bornmann, D. Lützenkirchen-Hecht, G. Müller, C. Langer, C. Prommesberger, and R. Schreiner: ”Electric field dependence of photoemission from n-and p-type Si crystals”, 35^th Int. Free Electron Laser Conf., New York, jacow.org, 339-343 (2013).

S. Lagotzky, G. Müller, and P. Kneisel: ”Field emitter current conditioning on Nb single crystals with different roughness due to varying EP/BCP ratio”, Proc. of the 16^th Int. Conf. on RF Superconductivity, Paris, Sept. 22-27, TUP0093 (2013).

S. Lagotzky, G. Müller, D. Reschke, and A. Matheisen: ”Influence of heat treatments on field emitters on Nb crystals”, Proc. of the 16^th Int. Conf. on RF Superconductivity, Paris, Sept. 22-27, TUP0094 (2013).

2012:

R. Schreiner, C. Prommesberger, C. Langer, F. Dams, P. Serbun, B. Bornmann, A. Navitski, and G. Müller: ”Highly uniform and stable electron field emission from B-doped Si-tip arrays for applications in integrated vacuum microelectronic devices”, Techn. Digest of the 25^th Int. Vacuum Nanoelectronics Conf., Jeju, IEEE Cat. No. CFP12VAC-PRT, 50-51 (2012).

F. Jordan, P. Serbun, A. Navitski, D. Lützenkirchen-Hecht, G. Müller, I. Alber, M.E. Toimil-Molares, and C. Trautmann: ”Optimization of ion-track etching and electrochemical Cu nanocone deposition for field emission cathodes”, Techn. Digest of the 25^th Int. Vacuum Nanoelectronics Conf., Jeju, IEEE Cat. No. CFP12VAC-PRT, 58-59 (2012).

V. Labunov, B. Shulitski, A. Tymoshchyk, Y. Tamashevich, and P. Serbun: ”Method of low-tempe-rature formation of horizontally aligned CNT networks on various substrates”, Techn. Digest of the 25^th Int. Vacuum Nanoelectronics Conf., Jeju, IEEE Cat. No. CFP12VAC-PRT, 182-183 (2012).

P. Serbun, A. Navitski, G. Müller, R. Schreiner, C. Prommesberger, C. Langer, and F. Dams: ”Scaling of the field emission current from B-doped Si-tip arrays”, Techn. Digest of the 25^th Int. Vacuum Nanoelectronics Conf., Jeju, IEEE Cat. No. CFP12VAC-PRT, 352-353 (2012).

M. Neubert, D. Behrenberg, N. Hartmann, V. Buck, P. Serbun, A. Navitski, and G. Müller: ”Fabrication, laser-structuring and field emission properties of carbon nanowalls”, Techn. Digest of the 25^th Int. Vacuum Nanoelectronics Conf., Jeju, IEEE Cat. No. CFP12VAC-PRT, 354-355 (2012).

A. Navitski, P. Serbun, G. Müller, B. Shulitski, Y. Tamashevich, and A. Tymoshchyk: ”Field emission properties of self-structured CNT networks deposited at temperatures below 150°C”, Techn. Digest of the 25^th Int. Vacuum Nanoelectronics Conf., Jeju, IEEE Cat. No. CFP12VAC-PRT, 356-357 (2012).

B, Bornmann, S. Mingels, P. Serbun, D. Lützenkirchen-Hecht, G. Müller, C. Prommesberger, C. Langer, F. Dams, and R. Schreiner: ”Photosensitivity of electron field emission from B-doped Si-tip arrays”, Techn. Digest of the 25^th Int. Vacuum Nanoelectronics Conf., Jeju, IEEE Cat. No. CFP12VAC-PRT, 382-383 (2012).

2011:

R. Schreiner, F. Dams, C. Prommesberger, B. Bornmann, P. Serbun, A. Navitski, and G. Müller: "Silicon-based Integrated Field Emission Electron Sources for Sensor Application", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 22-23 (2011).

A. Navitski, P. Serbun, G. Müller, R.K. Joshi, J. Engstler, and J.J. Schneider: "Homogeneity, activation effects and current limits of structured CNT column cathodes on Si substrates", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 34-35 (2011).

P. Serbun, S. Rutkowski, A. Navitski, G. Müller, N.T. Hong, and S. Lee: "Field emission from carbon nanotube (CNT) arrays and triode test of single CNT columns", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 38-39 (2011).

A. Navitski, P. Serbun, G. Müller, R. Schreiner, and F. Dams: "Efficient and reliable field emission from silicon tip arrays for miniaturized electron sources", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 98-99 (2011).

I. Alber, J. Krieg, C. Müller, M.E. Toimil-Molares, C. Trautmann, P. Serbun, F. Jordan, A. Navitski, and G. Müller: "Freestanding copper nanocones for field emission by ion-track technology and electrodeposition", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 106-107 (2011).

B. Bornmann, S. Mingels, D. Lützenkirchen-Hecht, G. Müller, F. Dams, and R. Schreiner: "Field emission spectroscopy studies on photo-sensitive p-doped Si-tip arrays", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 128-129 (2011).

C. Prommesberger, F. Dams, C. Langer, R. Schreiner, S. Rutkowski, B. Bornmann, and G. Müller: "Simulation of Electron Trajectories of a Field Emission Electron Source in Triode Configuration by using Finite Element Methods", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 144-145 (2011).

H. Gaur-Jain, N. Hartmann, V. Buck, P. Serbun, A. Navitski, and G. Müller: "Electron emission of laser-structured carbon nanowalls on Si and stainless steel substrates", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 178-179 (2011).

P. Serbun, F. Jordan, A. Navitski, G. Müller, I. Alber, M.E. Toimil-Molares, and C. Trautmann: "Field emission properties of copper nanocones grown in polymer ion-track membranes", Techn. Digest of the 24th Int. Vacuum Nanoelectronics Conf., Wuppertal, IEEE Cat. No. CFP11VAC-PRT, 230-231 (2011).

A. Navitski, S. Lagotzky, G. Müller, D. Reschke and X. Singer: "Activation of field emitters on clean niobium surfaces", Proc. of the 15th Int. Conf. on RF Superconductivity, Chikago, THP 0061 (2011).

2010:

B. Bornmann, S. Mingels, A. Navitski and G. Müller: ”Field Emission Spectroscopy of Carbon Nanotube Cathodes”, Techn. Digest of the 23^rd Int. Vacuum Nanoelectronics Conf., Palo Alto, IEEE Cat. No. CFP10VAC-PRT, 20-21 (2010).

A. Navitski, P. Serbun, G. Müller, I. Alber, M.E. Toimil-Molares, and C. Trautmann: ”Correlation between Field Emission Current Limits and Morphology Changes of Gold Nanowire Patches”, Techn. Digest of the 23^rd Int. Vacuum Nanoelectronics Conf., Palo Alto, IEEE Cat. No. CFP10VAC-PRT, 163-164 (2010).

A. Navitski, P. Serbun, G. Müller, J. Engstler, R.K. Joshi, and J.J. Schneider: ”Field Emission Properties of Aligned Pure and TiO₂-Coated Carbon Nanotube Block Arrays”, Techn. Digest of the 23^rd Int. Vacuum Nanoelectronics Conf., Palo Alto, IEEE Cat. No. CFP10VAC-PRT, 167-168 (2010).

B. Bornmann, S. Mingels, D. Lützenkirchen-Hecht and G. Müller: ”Photo-induced field emission spectroscopy for high brightness electron sources”, Abstr. subm. to the 32^nd Int. Free Electron Laser Conf., Malmö, Sept. (2010).

R. Schreiner, F. Dams, P. Serbun, A. Navitski, and G. Müller: ”Miniaturized Field Emission Electron Source for Sensor Applications”, Abstr. subm. to the 2nd Int. Workshop on Novel Developments and Applications of Sensor and Actuator Technology, Coburg, Sept. (2010).

2009:

A. Navitski, V. Sakharuk, F. Jordan, G. Müller, S. Müller, M. Rauber, M.E. Toimil-Molares and C. Trautmann: ”Efficient field emission of gold and platinum nanowire patch arrays”, Techn. Digest of the 22^nd Int. Vacuum Nanoelectronics Conf., Hamamatsu, IEEE Cat. No. CFP09VAC-PRT, 137-138 (2009).

A.L. Prunikava, B.G. Shulitski, V.A. Labunov, A. Navitski, V. Sakharuk, and G. Müller: ”Efficient high-current field emission from arrays of CNT columns”, Techn. Digest of the 22^nd Int. Vacuum Nanoelectronics Conf., Hamamatsu, IEEE Cat. No. CFP09VAC-PRT, 257-258 (2009).

D.V. Solovei, V.N. Sakharuk, A.M. Navitski, G.G. Gorokh, and G. Müller: ”Matrixes of field emission cathodes based on carbon nanotubes in porous alumina”, Proc. of the 19^th Int. Crimean Conf. “Microwave & Telecommunication Technology”, Sevastopol, IEEE Cat. No. CFP09788, p.601-604 (2009).

A. Navitski, G. Müller, K. Flöttmann, and S. Lederer: ”Novel UHV scanning anode field emission microscope (SAFEM) for dark current investigations on photocathodes”, Proc. of the 14^th Int. Conf. on RF Superconductivity, Berlin, p. 312-315 (2009).

A. Navitski, S. Lagotzky, G. Müller, D. Reschke and X. Singer: ”Surface roughness and correlated enhanced field emission investigations of electropolished niobium samples”, Proc. of the 14^th Int. Conf. on RF Superconductivity, Berlin, p. 316-320 (2009).

2008:

D. Solovei, V. Sakharuk, A. Mozalev, A. Navitski, J. Shaman, A. Prudnikova, G. Gorokh, and G. Müller: ”Influence of various contact interfaces between carbon nanotubes and porous alumina-caoted n-type Si substrates on field emission properties”, Proc. Nano-2008 Meeting, Minsk (2008).

A. Navitski, G. Müller, T.W. Cornelius and C. Trautmann: ”Field emission properties of gold nanowire cathodes fabricated by the ion-track template technique”, Techn. Digest of the 21^st Int. Vacuum Nanoelectronics Conf., Wroclaw, ISBN: 83-914886-2-4, 75-76 (2008).

D. Solovei, G. Gorokh, A. Mozalev, A. Navitski, V. Sakharuk, and G. Müller: ”Influence of various contact interfaces between carbon nanotubes and n-type Si substrates on field emission properties”, Techn. Digest of the 21^st Int. Vacuum Nanoelectronics Conf., Wroclaw, ISBN: 83-914886-2-4, 118-119 (2008).

2007:

A. Dangwal, C.S. Pandey, G. Müller, S. Karim, T.W. Cornelius and C. Trautmann: ”Field emission properties of gold nanowire cathodes based on polymer ion-track membranes”, Techn. Digest of the 20^th Int. Vacuum Nanoelectronics Conf., Chikago, IEEE Cat. No. 07TH8951, 100-101 (2007).

A. Dangwal, G. Müller, D. Reschke and X. Singer: ”Field emission from single crystal and large grain niobium cathodes”, Proc. of the 13^th Workshop on RF Superconductivity, Beijing, WEP24 (2007).

V. Labunov, B. Shulitski, A. Prudnikova, J. Shaman, A. Smirnov, A. Navitski and G.Müller: ”CNT Field emission cathodes for micro-FEDs”, Proc. of the 14^th Int. Display Workshop, Sapporo, p. 2181-2184 (2007).

2006:

A. Dangwal, D. Lysenkov, G. Müller, F. Maurer, J. Broetz, and H. Fuess: ”Field emission properties of metallic nanowires grown in polymer ion-track membranes”, Techn. Digest of the 19^th Int. Vacuum Nanoelectronics Conf., Guilin, IEEE Cat. No. 06TH8886, p.131-132 (2006).

D. Lysenkov, A. Dangwal, G. Müller, J. Engstler, and J.J. Schneider: ”Current density and distribution of carbon nanotubes anchored on alumina templates with various pore diameter”, Techn. Digest of the 19^th Int. Vacuum Nanoelectronics Conf., Guilin, IEEE Cat. No. 06TH8886, p. 225-226 (2006).

2005:

G. Müller, A. Dangwal, D. Lysenkov, J.J. Schneider, J. Engstler, N. Maximova, V. Ebert, P. Strauch, J. Wolfrum, O. Deutschmann, V. Janardhanan, and J. Warnatz: ”MOCVD synthesis of carbon nanotubes on porous alumina for field emission applications”, Abstract subm. to the 6^th Int. Conf. on Science and Application of Nanotubes, Göteborg, p. 344 (2005).

G. Müller: ”Carbon nanotubes and nanofibers as strong field emitters for cold cathode applications”, Techn. Digest of the 18^th Int. Vacuum Nanoelectronics Conf., Oxford, IEEE Cat. No. 05TH8837, p. 66-67 (2005).

D. Lysenkov and G. Müller: ”Pulsed measurements on carbon nanotubes based cold cathodes”, Techn. Digest of the 18^th Int. Vacuum Nanoelectronics Conf., Oxford, IEEE Cat. No. 05TH8837, p. 155-156 (2005).

A. Dangwal, D. Reschke, and G. Müller: ”DC field emission scanning measurements on electropolished niobium samples”, Proc. of the 12^th Workshop on RF Superconductivity, Ithaca/NY, TUP-11 (2005).

F. Maurer, J. Broetz, A. Dangwal, D. Lysenkov, G. Müller, T. Cornelius, S. Karim, M.E. Toimil-Molares, and H. Fuess: ”Electrochemical deposition of copper nanowire arrays and their field emission properties”, Abstr. to the 1^st Int. Symp. on Electrodeposition of Nanoengineered Materials, Los Angeles, Oct. (2005).

2004:

D. Reschke, A. Brinkmann, D. Werner, and G. Müller: ”First experience with dry-ice cleaning on SRF cavities”, Proc. of the 10^th Linear Accelarator Conf., Lübeck, p. 830-832 (2004).

G. Müller, J. Engstler, D. Lysenkov, and J.J. Schneider: ”MOCVD grown carbon nanotubes on porous alumina - optimization towards field emission applications”, Abstract subm. to the 5^th Int. Conf. on Science and Application of Nanotubes, San Luis Potosi (2004).

D. Lysenkov, G. Müller, J. Engstler and J.J. Schneider: ”Pressure dependence and current stability of field emission from carbon nanotubes on porous alumina”, Techn. Digest of the 17^th Int. Vacuum Nanoelectronics Conf., Cambridge/Ma, IEEE Cat. No. 04TH8737, p. 192-193 (2004).

D. Lysenkov, G. Müller, J. Engstler and J.J. Schneider: ” MOCVD grown carbon nanotubes on porous alumina: optimization for field emission applications”, Abstr. subm. to the 2^nd Biennial Symp. and Summer School on Nano and Giga Challenges in Microelctronics Research and Development Opportunities, Cracow, Sept. (2004).

2003:

G. Müller, B. Günther, F. Kaldasch, D. Proch, and D. Reschke: ”Influence of metal particle contaminations on the dc field emission of niobium”, Abstr. to the 11^th Workshop on RF Superconductivity, Lübeck (2003).