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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2008
Schriftenreihe:	Biological and medical physics, biomedical engineering
Schlagworte:	Laser pulses, Ultrashort Lasers Pulse techniques (Electronics) Ultrakurzzeitlaser Medizin Biologie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 320 S. Ill., graph. Darst.
ISBN:	9783540735656 3540735658

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Datensatz im Suchindex

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adam_text	Contents Part I Ultrafast Lasers in Medicine 1 Ultrahigh-Resolution Optical Coherence Tomography Using Femtosecond Lasers J.G. Fujimoto, A.D. Aguirre, Y. Chen, P.R. Herz, P. -L. Hsiung, Т.Н. Ko, N. Nishizawa. and F.X. Kärtner.......................... 3 1.1 Introduction ............................................... 3 1.2 Measuring Ultrafast Optical Echoes ........................... 6 1.3 Low-Coherence Interferometry ............................... 7 1.4 Resolution of OCT ......................................... 8 1.5 Ultrahigh-Resolution OCT Using Femtosecond Lasers ........... 10 1.6 Ultrahigh-Resolution OCT Imaging Using Ti:AI2O3 Femtosecond Lasers .......................... 11 1.7 Ultrahigh-Resolution Imaging Using CnForsterite Femtosecond Lasers ....................... 15 1.8 Ultrahigh-Resolution OCT Imaging Using Femtosecond Nd:Glass Lasers .......................... 20 1.9 Three-Dimensional OCT (3D-OCT) Imaging ................... 22 1.10 Summary .................................................. 23 References ...................................................... 24 2 Two-Photon Laser Scanning Microscopy A. Nimmer jahn, P. Theer, and F. Helmchen........................ 29 2.1 Introduction ............................................... 29 2.2 Theory and Technology ..................................... 29 2.2.1 Two-Photon Fluorescence Excitation ................... 29 2.2.2 Fluorescence Detection ................................ 33 2.2.3 Instrumentation ...................................... 35 2.2.4 Fluorescence Labeling Techniques ...................... 36 VIII Contents 2.3 Applications ............................................... 39 2.3.1 Functional Fluorescence Imaging ....................... 40 2.3.2 Photomanipulation ................................... 43 2.4 Limitations ................................................ 44 2.4.1 Spatial and Temporal Resolution ....................... 44 2.4.2 Tissue Damage ...................................... 45 2.5 Future Perspectives ......................................... 46 References ...................................................... 48 3 Femtosecond Lasers in Ophthalmology: Surgery and Imaging J.F. Bille ....................................................... 53 3.1 Introduction ............................................... 53 3.2 Surgical Applications of Femtosecond Lasers in Ophthalmology. . . 54 3.2.1 Laser-Tissue Interaction .............................. 54 3.2.2 All-Solid-State Femtosecond Laser Technology ........... 57 3.2.3 Clinical Instrumentation .............................. 60 3.2.4 Experimental Results ................................. 61 3.3 Imaging Applications of Femtosecond Lasers in Ophthalmology .......................................... 63 3.3.1 Principles of Nonlinear Microscopic Imaging ............. 63 3.3.2 Second Harmonic Generation Imaging of Collagen Fibrils in Cornea, Sclera, and Optic Nerve Head .......... 64 3.3.3 Two Photon Excited Autofluorescence Imaging of Lipofuscin Granules in RPE ......................... 67 3.3.4 Aberration Free Retina Imaging with Closed-Loop Adaptive Optics ..................... 70 3.4 Conclusion and Outlook ..................................... 71 References ...................................................... 72 Part II Ultrafast Lasers in Biology 4 Ultrafast Peptide and Protein Dynamics by Vibrational Spectroscopy P. Hamm....................................................... 77 4.1 Introduction ............................................... 77 4.2 The Challenge of Using IR Spectroscopy as Structure-Sensitive Method ............................... 78 4.3 Experimental Methods ...................................... 80 4.4 Vibrational Spectroscopy of Equilibrium Dynamics of Peptides and Proteins .................................... 80 4.4.1 Photon Echo Spectroscopy ............................ 81 4.4.2 2D-IR Spectroscopy .................................. 83 Contents IX 4.5 Vibrational Spectroscopy of Nonequilibrium Dynamics of Peptides and Proteins .................................... 86 4.6 Conclusion and Outlook..................................... 90 References ...................................................... 91 5 Photosynthetic Light-Harvesting T. Pullerits, T. Polívka, and V. Sundström .......................... 95 5.1 Introduction ............................................... 95 5.2 Light-Harvesting in Photosynthetic Purple Bacteria: Energy Transfer and Trapping ............................... 96 5.2.1 B800 ............................................... 97 5.2.2 Excitons and Polarons in B850 ......................... 98 5.2.3 Inter-Complex Excitation Transfer ......................100 5.3 Carotenoid Light-Harvesting in the Peridinin-Chlorophyll Protein (PCP) ...................104 5.3.1 Steady-State Spectroscopy .............................104 5.3.2 Energy Transfer Pathways .............................108 5.4 Carbonyl Carotenoids in Other Light-Harvesting Systems ........................... Ill References ......................................................112 6 Primary Photosynthetic Energy Conversion in Bacterial Reaction Centers W. Zinth and J. Wachtveitl .......................................117 6.1 Introduction ...............................................117 6.2 Structure and Absorption Spectra of Photosynthetic Reaction Centers ...........................120 6.3 Ultrafast Reaction Steps ....................................122 6.4 Some Remarks on Superexchange Electron Transfer .............124 6.5 Superexchange vs. Stepwise Electron Transfer ..................126 6.6 Theoretical Description of the Picosecond ET ..................130 6.7 Experiments on Modified Reaction Centers ....................131 6.8 Optimization of Photosynthesis ..............................132 6.9 Conclusion ................................................135 References ......................................................135 7 Ultrafast Primary Reactions in the Photosystems of Oxygen-Evolving Organisms A.R. Holzwarth ..................................................141 7.1 Structural Basis of Primary Photosynthetic Reactions ...........141 7.2 Photosystem I Structure ....................................142 7.3 Photosystem II Structure ....................................145 7.4 Energy Transfer Processes ...................................147 7.4.1 Energy Transfer in Core Antenna/RC Particles ..........147 7.4.2 Is Energy Transfer from the Core to the RC Rate-Limiting? .............................147 X Contents 7.4.3 Energy Transfer in PS I Cores .........................148 7.4.4 Energy Exchange with Red Chlorophylls in PS I Cores .... 149 7.4.5 Energy Transfer in PS II Cores ........................151 7.5 Electron Transfer Processes ..................................152 7.5.1 Photosystem I Cores ..................................152 7.5.2 Electron Transfer in PS II RCs.........................154 7.6 Conclusions ................................................158 References...................................................... 158 8 Primary Photochemistry in the Photoactive Yellow Protein: The Prototype Xanthopsin D.S. Larsen, R. van Grondelle, and K.J. Hellingwerf.................165 8.1 Introduction ...............................................165 8.1.1 Biological Function ...................................166 8.1.2 PYP Structure .......................................167 8.1.3 PYP Photocycle .....................................169 8.2 Biophysical Techniques ......................................171 8.3 Time-Resoved Fluorescence Signals ...........................174 8.4 Electronically Resonant Transient Absorption Signals ...........176 8.4.1 Pump-Probe Measurements ...........................177 8.4.2 Pump-Dump-Probe Measurements .....................183 8.5 Vibrationally Resonant Ultrafast Signals ......................186 8.6 Time-Resolved Х -Ray Diffraction Measurements ...............189 8.7 Isolated PYP Chromophores .................................190 8.8 Quantum Calculations and Molecular Dynamics ................192 8.9 Concluding Remarks ........................................194 References ......................................................195 9 Structure Based Kinetics by Time-Resolved X-ray Crystallography M. Schmidt .....................................................201 9.1 Introduction ...............................................201 9.1.1 Structure and Function of Proteins .....................201 9.1.2 Structure Determination of Intermediate States by Stabilization (Trapping) of their Occupation ..........203 9.2 Crystallography Meets Chemical Kinetics ......................206 9.2.1 Chemical Kinetics ....................................206 9.2.2 Time-Resolved Х -Ray Structure Analysis ................208 9.3 From the Reaction Initiation to Difference Electron Density Maps ..........................213 9.3.1 Reaction Initiation ...................................213 9.3.2 Detectors ...........................................214 9.3.3 Data Reduction ......................................215 9.3.4 Difference Maps ......................................215 Contents XI 9.4 Experiments...............................................216 9.4.1 Myoglobin...........................................216 9.4.2 The Photoactive Yellow Protein........................218 9.5 A New Method for the Analysis of Time-Resolved X-ray Data .. . 220 9.5.1 The Singular Value Decomposition .....................220 9.5.2 The Noise Filter .....................................222 9.5.3 Transient Kinetics and Kinetic Mechanisms from the SVD .......................................224 9.5.4 Determination of the Structures of the Intermediates .....226 9.5.5 Posterior Analysis ....................................227 9.5.6 Verification of the Functionality of the SVD-Driven Analysis by Mock Data ...............................229 9.6 The SVD Analysis of Experimental Time-Resolved Data ........230 9.6.1 SVD-Flattening ......................................230 9.6.2 The Mechanistic Analysis of the PYP data ..............230 9.6.3 The Structures of the Intermediates in the Late Photocycle Between 5цѕ and 100ms ..........232 9.6.4 Plausible Kinetic Mechanisms ..........................232 9.6.5 The Entire Photocycles of the Wild-Type PYP and its E46Q-Mutant .................................234 9.7 Picosecond Time Resolution and Beyond ......................235 9.8 More Applications ..........................................236 References ......................................................237 10 Primary Reactions in Retinal Proteins R. Oilier ........................................................243 10.1 Introduction ...............................................243 10.2 Systems ...................................................246 10.3 A First Glance at the Primary Reaction Dynamics .............249 10.3.1 11- Cis —> AU- Trons Isomerization ......................250 10.3.2 All- Trans —> 13- Cis Isomerization ......................252 10.4 Discussion .................................................256 10.4.1 When Does Isomerization Occur? ......................256 10.4.2 Ultrafast Electronic Surface Crossing ...................263 10.4.3 Reaction Models .....................................264 10.4.4 Wavepacket Dynamics after Electronic Excitation ........266 10.4.5 Chromophore-Protein Interaction .......................268 References ......................................................271 11 Ultrashort Laser Pulses in Single Molecule Spectroscopy E. Haustein and P. Schwüle.......................................279 11.1 Introduction ...............................................279 11.2 Basic Concepts of Fluorescence ...............................279 11.2.1 Fluorescence .........................................279 11.2.2 Fluorescence Lifetime .................................281 XII Contents 11.2.3 Fluorescent Dyes .....................................284 11.2.4 Autofluorescent Proteins ..............................284 11.2.5 Organic Chromophores ................................284 11.2.6 Quantum Dots .......................................285 11.3 Instrumentation and Set-up ..................................286 11.3.1 Confocal Set-up: Continuous-Wave (cw-) Excitation ......286 11.3.2 Confocal Set-up: Pulsed Excitation .....................287 11.4 Time-Correlated Single Photon Counting (TCSPC) .............289 11.4.1 Fluorescence Lifetime .................................289 11.4.2 Instrument Response Function (IRF) ...................291 11.4.3 Analysis of Fluorescence Decays ........................292 11.5 Fluorescence Correlation Spectroscopy (FCS) ..................294 11.5.1 One-Photon Excitation ...............................294 11.6 Two-Photon Excitation .....................................297 11.6.1 Correlation of Photon Arrival Times ....................298 11.7 Gated Detection ...........................................300 11.7.1 Time-Resolved Fluorescence Correlation Spectroscopy ... .301 11.8 Lifetime-Assisted Crosstalk-Suppression for Cross-Correlation Spectroscopy ...........................302 11.9 Anisotropy ................................................302 11.9.1 Theory .............................................302 11.9.2 Time-Resolved Fluorescence Anisotropy .................303 11.9.3 Static Anisotropy ....................................303 11.9.4 Time-Resolved Anisotropy .............................304 11.10 Burst -Analysis ...........................................304 11.11 Conclusions ................................................306 References ......................................................306 Index ..........................................................311
adam_txt	Contents Part I Ultrafast Lasers in Medicine 1 Ultrahigh-Resolution Optical Coherence Tomography Using Femtosecond Lasers J.G. Fujimoto, A.D. Aguirre, Y. Chen, P.R. Herz, P. -L. Hsiung, Т.Н. Ko, N. Nishizawa. and F.X. Kärtner. 3 1.1 Introduction . 3 1.2 Measuring Ultrafast Optical Echoes . 6 1.3 Low-Coherence Interferometry . 7 1.4 Resolution of OCT . 8 1.5 Ultrahigh-Resolution OCT Using Femtosecond Lasers . 10 1.6 Ultrahigh-Resolution OCT Imaging Using Ti:AI2O3 Femtosecond Lasers . 11 1.7 Ultrahigh-Resolution Imaging Using CnForsterite Femtosecond Lasers . 15 1.8 Ultrahigh-Resolution OCT Imaging Using Femtosecond Nd:Glass Lasers . 20 1.9 Three-Dimensional OCT (3D-OCT) Imaging . 22 1.10 Summary . 23 References . 24 2 Two-Photon Laser Scanning Microscopy A. Nimmer jahn, P. Theer, and F. Helmchen. 29 2.1 Introduction . 29 2.2 Theory and Technology . 29 2.2.1 Two-Photon Fluorescence Excitation . 29 2.2.2 Fluorescence Detection . 33 2.2.3 Instrumentation . 35 2.2.4 Fluorescence Labeling Techniques . 36 VIII Contents 2.3 Applications . 39 2.3.1 Functional Fluorescence Imaging . 40 2.3.2 Photomanipulation . 43 2.4 Limitations . 44 2.4.1 Spatial and Temporal Resolution . 44 2.4.2 Tissue Damage . 45 2.5 Future Perspectives . 46 References . 48 3 Femtosecond Lasers in Ophthalmology: Surgery and Imaging J.F. Bille . 53 3.1 Introduction . 53 3.2 Surgical Applications of Femtosecond Lasers in Ophthalmology. . . 54 3.2.1 Laser-Tissue Interaction . 54 3.2.2 All-Solid-State Femtosecond Laser Technology . 57 3.2.3 Clinical Instrumentation . 60 3.2.4 Experimental Results . 61 3.3 Imaging Applications of Femtosecond Lasers in Ophthalmology . 63 3.3.1 Principles of Nonlinear Microscopic Imaging . 63 3.3.2 Second Harmonic Generation Imaging of Collagen Fibrils in Cornea, Sclera, and Optic Nerve Head . 64 3.3.3 Two Photon Excited Autofluorescence Imaging of Lipofuscin Granules in RPE . 67 3.3.4 Aberration Free Retina Imaging with Closed-Loop Adaptive Optics . 70 3.4 Conclusion and Outlook . 71 References . 72 Part II Ultrafast Lasers in Biology 4 Ultrafast Peptide and Protein Dynamics by Vibrational Spectroscopy P. Hamm. 77 4.1 Introduction . 77 4.2 The Challenge of Using IR Spectroscopy as Structure-Sensitive Method . 78 4.3 Experimental Methods . 80 4.4 Vibrational Spectroscopy of Equilibrium Dynamics of Peptides and Proteins . 80 4.4.1 Photon Echo Spectroscopy . 81 4.4.2 2D-IR Spectroscopy . 83 Contents IX 4.5 Vibrational Spectroscopy of Nonequilibrium Dynamics of Peptides and Proteins . 86 4.6 Conclusion and Outlook. 90 References . 91 5 Photosynthetic Light-Harvesting T. Pullerits, T. Polívka, and V. Sundström . 95 5.1 Introduction . 95 5.2 Light-Harvesting in Photosynthetic Purple Bacteria: Energy Transfer and Trapping . 96 5.2.1 B800 . 97 5.2.2 Excitons and Polarons in B850 . 98 5.2.3 Inter-Complex Excitation Transfer .100 5.3 Carotenoid Light-Harvesting in the Peridinin-Chlorophyll Protein (PCP) .104 5.3.1 Steady-State Spectroscopy .104 5.3.2 Energy Transfer Pathways .108 5.4 Carbonyl Carotenoids in Other Light-Harvesting Systems . Ill References .112 6 Primary Photosynthetic Energy Conversion in Bacterial Reaction Centers W. Zinth and J. Wachtveitl .117 6.1 Introduction .117 6.2 Structure and Absorption Spectra of Photosynthetic Reaction Centers .120 6.3 Ultrafast Reaction Steps .122 6.4 Some Remarks on Superexchange Electron Transfer .124 6.5 Superexchange vs. Stepwise Electron Transfer .126 6.6 Theoretical Description of the Picosecond ET .130 6.7 Experiments on Modified Reaction Centers .131 6.8 Optimization of Photosynthesis .132 6.9 Conclusion .135 References .135 7 Ultrafast Primary Reactions in the Photosystems of Oxygen-Evolving Organisms A.R. Holzwarth .141 7.1 Structural Basis of Primary Photosynthetic Reactions .141 7.2 Photosystem I Structure .142 7.3 Photosystem II Structure .145 7.4 Energy Transfer Processes .147 7.4.1 Energy Transfer in Core Antenna/RC Particles .147 7.4.2 Is Energy Transfer from the Core to the RC Rate-Limiting? .147 X Contents 7.4.3 Energy Transfer in PS I Cores .148 7.4.4 Energy Exchange with Red Chlorophylls in PS I Cores . 149 7.4.5 Energy Transfer in PS II Cores .151 7.5 Electron Transfer Processes .152 7.5.1 Photosystem I Cores .152 7.5.2 Electron Transfer in PS II RCs.154 7.6 Conclusions .158 References. 158 8 Primary Photochemistry in the Photoactive Yellow Protein: The Prototype Xanthopsin D.S. Larsen, R. van Grondelle, and K.J. Hellingwerf.165 8.1 Introduction .165 8.1.1 Biological Function .166 8.1.2 PYP Structure .167 8.1.3 PYP Photocycle .169 8.2 Biophysical Techniques .171 8.3 Time-Resoved Fluorescence Signals .174 8.4 Electronically Resonant Transient Absorption Signals .176 8.4.1 Pump-Probe Measurements .177 8.4.2 Pump-Dump-Probe Measurements .183 8.5 Vibrationally Resonant Ultrafast Signals .186 8.6 Time-Resolved Х -Ray Diffraction Measurements .189 8.7 Isolated PYP Chromophores .190 8.8 Quantum Calculations and Molecular Dynamics .192 8.9 Concluding Remarks .194 References .195 9 Structure Based Kinetics by Time-Resolved X-ray Crystallography M. Schmidt .201 9.1 Introduction .201 9.1.1 Structure and Function of Proteins .201 9.1.2 Structure Determination of Intermediate States by Stabilization (Trapping) of their Occupation .203 9.2 Crystallography Meets Chemical Kinetics .206 9.2.1 Chemical Kinetics .206 9.2.2 Time-Resolved Х -Ray Structure Analysis .208 9.3 From the Reaction Initiation to Difference Electron Density Maps .213 9.3.1 Reaction Initiation .213 9.3.2 Detectors .214 9.3.3 Data Reduction .215 9.3.4 Difference Maps .215 Contents XI 9.4 Experiments.216 9.4.1 Myoglobin.216 9.4.2 The Photoactive Yellow Protein.218 9.5 A New Method for the Analysis of Time-Resolved X-ray Data . . 220 9.5.1 The Singular Value Decomposition .220 9.5.2 The Noise Filter .222 9.5.3 Transient Kinetics and Kinetic Mechanisms from the SVD .224 9.5.4 Determination of the Structures of the Intermediates .226 9.5.5 Posterior Analysis .227 9.5.6 Verification of the Functionality of the SVD-Driven Analysis by Mock Data .229 9.6 The SVD Analysis of Experimental Time-Resolved Data .230 9.6.1 SVD-Flattening .230 9.6.2 The Mechanistic Analysis of the PYP data .230 9.6.3 The Structures of the Intermediates in the Late Photocycle Between 5цѕ and 100ms .232 9.6.4 Plausible Kinetic Mechanisms .232 9.6.5 The Entire Photocycles of the Wild-Type PYP and its E46Q-Mutant .234 9.7 Picosecond Time Resolution and Beyond .235 9.8 More Applications .236 References .237 10 Primary Reactions in Retinal Proteins R. Oilier .243 10.1 Introduction .243 10.2 Systems .246 10.3 A First Glance at the Primary Reaction Dynamics .249 10.3.1 11- Cis —> AU- Trons Isomerization .250 10.3.2 All- Trans —> 13- Cis Isomerization .252 10.4 Discussion .256 10.4.1 When Does Isomerization Occur? .256 10.4.2 Ultrafast Electronic Surface Crossing .263 10.4.3 Reaction Models .264 10.4.4 Wavepacket Dynamics after Electronic Excitation .266 10.4.5 Chromophore-Protein Interaction .268 References .271 11 Ultrashort Laser Pulses in Single Molecule Spectroscopy E. Haustein and P. Schwüle.279 11.1 Introduction .279 11.2 Basic Concepts of Fluorescence .279 11.2.1 Fluorescence .279 11.2.2 Fluorescence Lifetime .281 XII Contents 11.2.3 Fluorescent Dyes .284 11.2.4 Autofluorescent Proteins .284 11.2.5 Organic Chromophores .284 11.2.6 Quantum Dots .285 11.3 Instrumentation and Set-up .286 11.3.1 Confocal Set-up: Continuous-Wave (cw-) Excitation .286 11.3.2 Confocal Set-up: Pulsed Excitation .287 11.4 Time-Correlated Single Photon Counting (TCSPC) .289 11.4.1 Fluorescence Lifetime .289 11.4.2 Instrument Response Function (IRF) .291 11.4.3 Analysis of Fluorescence Decays .292 11.5 Fluorescence Correlation Spectroscopy (FCS) .294 11.5.1 One-Photon Excitation .294 11.6 Two-Photon Excitation .297 11.6.1 Correlation of Photon Arrival Times .298 11.7 Gated Detection .300 11.7.1 Time-Resolved Fluorescence Correlation Spectroscopy . .301 11.8 Lifetime-Assisted Crosstalk-Suppression for Cross-Correlation Spectroscopy .302 11.9 Anisotropy .302 11.9.1 Theory .302 11.9.2 Time-Resolved Fluorescence Anisotropy .303 11.9.3 Static Anisotropy .303 11.9.4 Time-Resolved Anisotropy .304 11.10 "Burst"-Analysis .304 11.11 Conclusions .306 References .306 Index .311
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id	DE-604.BV022950276
illustrated	Illustrated
index_date	2024-07-02T19:02:00Z
indexdate	2024-07-09T21:08:24Z
institution	BVB
isbn	9783540735656 3540735658
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016154752
oclc_num	210736378
open_access_boolean
owner	DE-703 DE-355 DE-BY-UBR DE-92 DE-29T DE-19 DE-BY-UBM
owner_facet	DE-703 DE-355 DE-BY-UBR DE-92 DE-29T DE-19 DE-BY-UBM
physical	XV, 320 S. Ill., graph. Darst.
publishDate	2008
publishDateSearch	2008
publishDateSort	2008
publisher	Springer
record_format	marc
series2	Biological and medical physics, biomedical engineering
spelling	Ultrashort laser pulses in biology and medicine Markus Braun ... (eds.) Berlin [u.a.] Springer 2008 XV, 320 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Biological and medical physics, biomedical engineering Laser pulses, Ultrashort Lasers Pulse techniques (Electronics) Ultrakurzzeitlaser (DE-588)4222151-1 gnd rswk-swf Medizin (DE-588)4038243-6 gnd rswk-swf Biologie (DE-588)4006851-1 gnd rswk-swf Ultrakurzzeitlaser (DE-588)4222151-1 s Biologie (DE-588)4006851-1 s DE-604 Medizin (DE-588)4038243-6 s Braun, Markus Sonstige oth Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016154752&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Ultrashort laser pulses in biology and medicine Laser pulses, Ultrashort Lasers Pulse techniques (Electronics) Ultrakurzzeitlaser (DE-588)4222151-1 gnd Medizin (DE-588)4038243-6 gnd Biologie (DE-588)4006851-1 gnd
subject_GND	(DE-588)4222151-1 (DE-588)4038243-6 (DE-588)4006851-1
title	Ultrashort laser pulses in biology and medicine
title_auth	Ultrashort laser pulses in biology and medicine
title_exact_search	Ultrashort laser pulses in biology and medicine
title_exact_search_txtP	Ultrashort laser pulses in biology and medicine
title_full	Ultrashort laser pulses in biology and medicine Markus Braun ... (eds.)
title_fullStr	Ultrashort laser pulses in biology and medicine Markus Braun ... (eds.)
title_full_unstemmed	Ultrashort laser pulses in biology and medicine Markus Braun ... (eds.)
title_short	Ultrashort laser pulses in biology and medicine
title_sort	ultrashort laser pulses in biology and medicine
topic	Laser pulses, Ultrashort Lasers Pulse techniques (Electronics) Ultrakurzzeitlaser (DE-588)4222151-1 gnd Medizin (DE-588)4038243-6 gnd Biologie (DE-588)4006851-1 gnd
topic_facet	Laser pulses, Ultrashort Lasers Pulse techniques (Electronics) Ultrakurzzeitlaser Medizin Biologie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016154752&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT braunmarkus ultrashortlaserpulsesinbiologyandmedicine

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