Insertion of CO2, COS and CS2 into the N-Si bond of extremely electron-rich 1,4-bis(trimethylsilyl)-1,4-dihydropyrazine and formation of a new poly(N,S) heterocyclic system by multiple cycloaddition. Journal of Organometallic Chemistry, (501)1-2:283--292, 1995. [PUMA: bond carbon carbonyl crystal cycloaddn dioxide disulfide insertion mol nitrogen prepn pyrazine silicon silicon;sulfide silyl;diepiazanothiocinopyrazinethione structure;insertion sulfide]
A Route to Base Coordinate Silicon Difluoride and the Silicon Trifluoride Radical. Chemistry - A European Journal, (24)6:1264--1268, 2018. [PUMA: EPR;mol alkylaminocarbene crystal cyclic difluoride prepn radical radical;cyclic silicon structure trifluoride]
Development of high-power ultrafast lasers: Quo Vadis. In W. Andrew Clarkson, and Ramesh K. Shori (Eds.), Solid State Lasers XXX: Technology and Devices, SPIE, March 2021. [PUMA: Ablation Diamond MultipassAmplifier SecondHarmonicGeneration Silicon ThinDiskLaser ThirdHarmonicGeneration UltrashortPulse myown] URL
Development of high-power ultrafast lasers: Quo Vadis. In W. Andrew Clarkson, and Ramesh K. Shori (Eds.), Solid State Lasers XXX: Technology and Devices, SPIE, March 2021. [PUMA: ThirdHarmonicGeneration myown SecondHarmonicGeneration from:marwanabdou UltrashortPulse ThinDiskLaser Silicon MultipassAmplifier Diamond Ablation] URL
High-power ultrafast thin-disk multipass amplifiers for efficient laser-based manufacturing. Advanced Optical technolgies, (10)4-5:285-295, October 2021. [PUMA: Ablation Diamond MultipassAmplifier Silicon ThinDiskLaser UltrashortPulse myown] URL
High-power ultrafast thin-disk multipass amplifiers for efficient laser-based manufacturing. Advanced Optical technolgies, (10)4-5:285-295, October 2021. [PUMA: myown from:marwanabdou UltrashortPulse ThinDiskLaser Silicon MultipassAmplifier Diamond Ablation] URL
Scaling the throughput of high-quality silicon laser micromachining using a 1-kW sub-picosecond laser. Proceedings of the Lasers in Manufacturing Conference 2021, 2021. [PUMA: ablation myown silicon]
Scaling the throughput of high-quality silicon laser micromachining using a 1-kW sub-picosecond laser. Proceedings of the Lasers in Manufacturing Conference 2021, 2021. [PUMA: myown silicon ablation from:danielholder]
Pulsformung zur schädigungsarmen Laserbearbeitung von Silizium. In Thomas Graf (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 194, Herbert Utz Verlag, München, 2018. [PUMA: Laser Modification PulseShaping Silicon from:peterberger]
A Route to Base Coordinate Silicon Difluoride and the Silicon Trifluoride Radical. Chemistry - A European Journal, (24)6:1264--1268, 2018. [PUMA: EPR;mol alkylaminocarbene crystal cyclic difluoride prepn radical radical;cyclic silicon structure trifluoride]
Insertion of CO2, COS and CS2 into the N-Si bond of extremely electron-rich 1,4-bis(trimethylsilyl)-1,4-dihydropyrazine and formation of a new poly(N,S) heterocyclic system by multiple cycloaddition. Journal of Organometallic Chemistry, (501)1-2:283--292, 1995. [PUMA: bond carbon carbonyl crystal cycloaddn dioxide disulfide insertion mol nitrogen prepn pyrazine silicon silicon;sulfide silyl;diepiazanothiocinopyrazinethione structure;insertion sulfide]
Aufbau eines Absorptionsmessplatzes und Bestimmung der optischen Eigenschaften von Silizium. IFSW18-37April 2019. [PUMA: Freitag,Christian Laser MicroMaterialProcessing Silicon Studienarbeit]
Aufbau eines Absorptionsmessplatzes und Bestimmung der optischen Eigenschaften von Silizium. IFSW18-37April 2019. [PUMA: MicroMaterialProcessing Studienarbeit Freitag,Christian Laser from:florianfetzer Silicon]
Messung des Restwärmekoeffizienten bei der gepulsten Bearbeitung von Silizium. IFSW18-25September 2018. [PUMA: Bachelorarbeit Freitag,Christian HeatAccumulation Laser MicroMaterialProcessing Silicon]
Messung des Restwärmekoeffizienten bei der gepulsten Bearbeitung von Silizium. IFSW18-25September 2018. [PUMA: MicroMaterialProcessing Freitag,Christian Bachelorarbeit Laser from:florianfetzer Silicon HeatAccumulation]
Optimierung des Laserstrahlschneidens von dünnen Siliciumfolien hinsichtlicht Schnittgeschwindigkeit und Schnittkantenqualität. IFSW04-06May 2004. [PUMA: Ambrosy,Günther Cutting Diplomarbeit Laser ProcessDevelopment Schott_Solar_AG Seidl,A. Silicon]
Optimierung des Laserstrahlschneidens von dünnen Siliciumfolien hinsichtlicht Schnittgeschwindigkeit und Schnittkantenqualität. IFSW04-06May 2004. [PUMA: Ambrosy,Günther Laser from:florianfetzer Schott_Solar_AG ProcessDevelopment Silicon Diplomarbeit Cutting Seidl,A.]
Bridging the gap between optical fibers and silicon photonic integrated circuits. Optics express, (22)2:1277--1286, 2014. [PUMA: circuit fiber optical photonic silicon] URL
Towards electrical detection of plasmons in all-silicon pin-diodes. physica status solidi (b), (249)4:773-777, 2012. [PUMA: CMOS beam epitaxy iht j.schulze.iht journal molecular pin-diodes plasmon plasmonic polaritons silicon surface technology waveguides] URL
Fine Structure in the Magnetic Resonance of Single Acceptors in Silicon. In C. A. J. Ammerlaan, and B. Pajot (Eds.), Shallow-Level Centers in Semiconductors, 251, World Scientific, Singapur, 1997. [PUMA: acceptors silicon single]