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11 Uhlig, Sebastian Self-Organized Surface Structures with Ultrafast White-Light I07289 2015 eBook  
12 Geffert, Paul M Stochastic Non-Excitable Systems with Time Delay I07037 2015 eBook  
13 R??hm, Andr?? Dynamic Scenarios in Two-State Quantum Dot Lasers I06358 2015 eBook  
14 Schenk, Michael Studies with a Liquid Argon Time Projection Chamber I05997 2015 eBook  
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11.    
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TitleSelf-Organized Surface Structures with Ultrafast White-Light : First Investigation of LIPSS with Supercontinuum
Author(s)Uhlig, Sebastian
PublicationWiesbaden, 1. Imprint: Springer Spektrum 2. Springer Fachmedien Wiesbaden, 2015.
DescriptionIX, 97 p. 90 illus : online resource
Abstract NoteSebastian Uhlig presents the first experimental investigation of self-organized surface structures (LIPSS) generated by ablation from different (semiconductor and metallic) targets with an ultrafast white-light continuum (WLC) spreading in wavelength from 400-750 nm. The main goal is to study the possibility of LIPSS formation upon irradiation with an incoherent and polychromatic light source (e.g. the WLC) in order to discriminate between the two debated formation scenarios. The generation of a suitable WLC in terms of sufficient white-light pulse energy, broad spectral bandwidth, and low spatial coherence for the LIPSS generation, as well as the characterization of this WLC are additional important objectives of this work. Contents Introduction to Laser Induced Periodic Surface Structures (LIPSS) Introduction to White-Light Continuum Generation Characterization of White-Light Supercontinuum Self-Organized Pattern Formation with Ultrafast White-Light Target Groups Lecturers, researchers and students in the fields of Material Science, Microsystems, Engineering The Author Sebastian Uhlig studied physics at Brandenburg University of Technology Cottbus-Senftenberg and wrote his Master Thesis at the Chair of Experimental Physics II, under the supervision of Prof. Dr. J??rgen Reif. Currently, he is employed at the Fraunhofer Institute for Photonic Microsystems in Dresden, where he works on integrated sensors for a new class of electrostatic actuators
ISBN,Price9783658098940
Keyword(s)1. Classical and Continuum Physics 2. Continuum physics 3. EBOOK 4. EBOOK - SPRINGER 5. LASERS 6. Optics, Lasers, Photonics, Optical Devices 7. PHOTONICS
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TitleStochastic Non-Excitable Systems with Time Delay : Modulation of Noise Effects by Time-Delayed Feedback
Author(s)Geffert, Paul M
PublicationWiesbaden, 1. Imprint: Springer Spektrum 2. Springer Fachmedien Wiesbaden, 2015.
DescriptionXIV, 84 p. 41 illus : online resource
Abstract NotePaul M. Geffert analyses the interplay of noise and time delay in non-excitable nonlinear systems and the modulation of stochastic effects. In particular, the author studies coherence resonance, which is a constructive effect of noise that occurs in nonlinear systems, and demonstrates that it can be modulated by time-delayed feedback. Analytical methods for the investigation of stochastic delay differential equations are developed. Noise or random perturbations and time delay are two phenomena which arise in many fields of physics, chemistry, or biology, just to mention a few examples. The investigated model is a generic Hopf normal form so that these methods and results can be transferred to many different areas of science. Contents Stochastic Effects in Nonlinear Systems Coherence Resonance Time-Delayed Feedback in Nonlinear Stochastic Systems Coupled Stochastic Systems ??Target Groups Researchers and students in the field of nonlinear dynamics, stochastic processes and stochastic delay differential equations Practitioners in these areas ??The Author Paul M. Geffert wrote his master???s thesis under the supervision of Prof. Dr. Eckehard Sch??ll, PhD in the Collaborative Research Center SFB 910 at the Institute of Theoretical Physics at TU Berlin. In 2015 he will start his PhD studies at Queen Mary University of London
ISBN,Price9783658092955
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. MATHEMATICAL PHYSICS 4. PROBABILITIES 5. Probability Theory and Stochastic Processes 6. Theoretical, Mathematical and Computational Physics
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TitleDynamic Scenarios in Two-State Quantum Dot Lasers : Excited State Lasing, Ground State Quenching, and Dual-Mode Operation
Author(s)R??hm, Andr??
PublicationWiesbaden, 1. Imprint: Springer Spektrum 2. Springer Fachmedien Wiesbaden, 2015.
DescriptionXV, 102 p. 60 illus : online resource
Abstract NoteAndr?? R??hm investigates the dynamic properties of two-state lasing quantum dot lasers, with a focus on ground state quenching. With a novel semi-analytical approach, different quenching mechanisms are discussed in an unified framework and verified with numerical simulations. The known results and experimental findings are reproduced and parameter dependencies are systematically studied. Additionally, the turn-on dynamics and modulation response curves of two-state lasing devices are presented. Contents Quantum Dot Laser Theory Two-State Lasing and Ground-State Quenching Modulation Response Target Groups Researchers and students in the field of theoretical physics Practitioners in this area The Author Andr?? R??hm wrote his master???s thesis under the supervision of Prof. Dr. Eckehard Sch??ll, PhD and Prof. Dr. Kathy L??dge in the Collaborative Research Center SFB 910 at the Institute of Theoretical Physics at TU Berlin
ISBN,Price9783658094027
Keyword(s)1. Atomic, Molecular, Optical and Plasma Physics 2. ATOMS 3. EBOOK 4. EBOOK - SPRINGER 5. Electronic materials 6. MATHEMATICAL PHYSICS 7. Optical and Electronic Materials 8. OPTICAL MATERIALS 9. PHYSICS 10. Theoretical, Mathematical and Computational Physics
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14.    
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TitleStudies with a Liquid Argon Time Projection Chamber : Addressing Technological Challenges of Large-Scale Detectors
Author(s)Schenk, Michael
PublicationWiesbaden, 1. Imprint: Springer Spektrum 2. Springer Fachmedien Wiesbaden, 2015.
DescriptionXI, 152 p. 59 illus : online resource
Abstract NoteMichael Schenk evaluates new technologies and methods, such as cryogenic read-out electronics and a UV laser system, developed to optimise the performance of large liquid argon time projection chambers (LArTPC). Amongst others, the author studies the uniformity of the electric field produced by a Greinacher high-voltage generator operating at cryogenic temperatures, measures the linear energy transfer (LET) of muons and the longitudinal diffusion coefficient of electrons in liquid argon. The results are obtained by analysing events induced by cosmic-ray muons and UV laser beams. The studies are carried out with ARGONTUBE, a prototype LArTPC in operation at the University of Bern, Switzerland, designed to investigate the feasibility of drift distances of up to five metres for electrons in liquid argon. Contents The ARGONTUBE detector The Greinacher high-voltage generator Linear energy transfer of muons in liquid argon UV laser methods and measurements Target Groups Lecturers and students of applied physics specialising in particle detector technologies Researchers developing liquid argon time projection chambers for rare event detection, e.g. in the field of neutrino physics or astrophysics About the Author Michael Schenk obtained his master???s degree in Applied / Experimental Physics from the University of Bern, Switzerland, and is currently doing an internship at CERN, Geneva, Switzerland in the fields of collective effects and beam instabilities in particle accelerators
ISBN,Price9783658094300
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. ELECTRONIC CIRCUITS 4. Electronic Circuits and Devices 5. Measurement Science and Instrumentation 6. Measurement?????? 7. Particle acceleration 8. Particle Acceleration and Detection, Beam Physics 9. PHYSICAL MEASUREMENTS
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