Verfügbarkeit: The physics of liquid crystals

The physics of liquid crystals:

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Bibliographische Detailangaben
Hauptverfasser:	Gennes, Pierre-Gilles de 1932-2007 (VerfasserIn), Prost, Jacques (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford Clarendon Press 2007
Ausgabe:	2. ed., 1. publ. in paperback, reprint.
Schriftenreihe:	The international series of monographs on physics 83
Schlagworte:	Flüssigkristall
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Hier auch später erschienene, unveränderte Nachdrucke
Beschreibung:	XVI, 597 S. Ill., graph. Darst.
ISBN:	9780198517856

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Datensatz im Suchindex

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adam_text	CONTENTS LIQUID CRYSTALS: MAIN TYPES AND PROPERTIES 1 1 3 3 6 6 8 9 10 10 10 12 13 17 18 19 20 22 24 26 26 26 27 27 28 29 31 32 34 LONG- AND SHORT-RANGE ORDER IN NEMATICS 41 2.1 Definition of an order parameter 41 2.1.1 Microscopic approach 41 2.1.2 Macroscopic approach 56 2.1.3 Relation between microscopic and macroscopic approaches 57 2.2 Statistical theories of the nematic order 59 2.2.1 Mean-field calculations for hard rods and platelets 59 2.2.2 Mean-field theory with S2 interaction 66 2.2.3 Computer calculations 73 1.1 Introduction: what is a liquid crystal? 1.2 The t juilding blocks 1.2.1 Small elongated organic molecules 1.2.2 Small discoid organic molecules 1.2.3 Long helical rods 1.2.4 Polymers 1.2.5 Associated structures 1.2.6 Summary 1.3 Nematics and cholesterics 1.3.1 Uniaxial nematics 1.3.2 Nematics of different symmetry 1.3.3 Cholesterics 1.3.4 Summary 1.4 Smectics 1.4.1 Smectics A 1.4.2 Smectics С 1.4.3 Hexatic smectics 1.4.4 Crystalline smectics 1.4.5 The D phase 1.5 Columnar phases 1.5.1 Hexagonal phases 1.5.2 Rectangular and oblique phases 1.5.3 Antiphases 1.6 Mon î on long-, quasilong-, and short-range order 1.6.1 Poor man s elasticity of liquid crystals 1.6.2 Fluctuations 1.6.3 Long-range, quasilong-range, short-range order 1.7 Remarkable features of liquid crystals CONTENTS 2.3 Phenomenological description of the nematic-isotropic transition J* 2.3.1 Landau free energy above Tc 2.3.2 Static pretransitional efTects ° 2.3.3 Biaxial phase °2 2.3.4 Failures of the mean-field approach 85 2.4 Mixtures 91 2.4.1 Importance of mixed systems 1 2.4.2 General trends 92 STATIC DISTORTIONS IN A NEMATIC SINGLE CRYSTAL 98 3.1 Principles of the continuum theory 98 3.1.1 Long-range distortions 98 3.1.2 The distortion free energy 100 3.1.3 Discussion of the distortion-energy formula 102 3.1.4 Boundary effects 108 3.1.5 Nematics transmit torques 116 3.2 Magnetic field effects 117 3.2.1 Molecular diamagnetism H 3.2.2 Definition of a magnetic coherence length 120 3.2.3 The Frederiks transition 123 3.3 Electric field effects in an insulating nematic 133 3.3.1 Dielectric anisotropy 133 3.3.2 Polarization induced by distortion (flexoelectric effect) 135 3.4 Fluctuations in the alignment 139 3.4.1 Light-scattering experiments 139 3.4.2 Orientation fluctuations and correlations in a nematic single crystal 141 3.4.3 Scattering of light by orientation fluctuations 144 3.5 Hydrostatics of nematics 150 3.5.1 Free energy and molecular field 150 3.5.2 Stresses and forces 151 3.5.3 The balance of torques 155 4 DEFECTS AND TEXTURES IN NEMATICS 163 4.1 Observations 163 4.1.1 Black filaments ( structures à fi Is ) 163 4.1.2 Structures à noyaux ( Schlieren structures ) 163 4.1.3 Types of defects 166 4.2 Disclination lines 168 4.2.1 Definition of the strength 168 4.2.2 Distortion field around one line 170 4.2.3 The concept of line tension 178 4.3 Point disclinations 180 4.3.1 Instability theorem for lines of integral strength 180 CONTENTS xiii 4.3.2 Interpretation of the noyaux 183 4.3.3 Other observations on point defects 184 4.4 Walls under magnetic fields 185 4.4.1 180° walls 187 4.4.2 Walls associated with a Frederiks transition 189 4.4.3 Transformation from walls to lines { pincement ) 190 4.5 Umbilics 194 4.6 Surface disclinations 194 5 DYNAMICAL PROPERTIES OF NEMATICS 198 5.1 The equations of nematodynamics 198 5.1.1 Coupling between orientation and flow 198 5.1.2 Choice of dynamical variables 199 5.1.3 The entropy source for a flowing nematic 200 5.1.4 The laws of friction 204 5.2 Experiments measuring the Leslie coefficients 209 5.2.1 Laminar flow under a strong orienting field 209 5.2.2 Attenuation of ultrasonic shear waves 213 5.2.3 Laminar flow in the absence of external fields 218 5.2.4 Variable external fields 220 5.2.5 Inelastic scattering of light 227 5.3 Convective instabilities under electric fields 230 5.3.1 Basic electrical parameters 230 5.3.2 Experimental observations at low frequencies 233 5.3.3 The Helfrich interpretation 236 5.3.4 Extension to higher frequencies 239 5.4 Molecular motions 245 5.4.1 Dielectric relaxation 245 5.4.2 Nuclear spin-lattice relaxation 246 5.4.3 Acoustic relaxation 248 5.4.4 Translational motions 250 5.4.5 Temperature variation of the friction coefficients 254 5.4.6 Semi-slow motions above Tc 255 6 CHOLESTERICS 263 6.1 Optical properties of an ideal helix 263 263 264 268 271 279 6.2 Agents influencing the pitch 280 281 286 6.1 .1 The planar texture 6. .2 Bragg reflections 6.1 .3 Transmission properties at arbitrary wavelengths (normal incidence) 6.1 .4 Interpretation 6.1 .5 Conclusions and generalizations Agents influencing the pitch 6.2.1 Physicochemical factors 6.2.2 External fields CONTENTS 6.3 Dynamical properties 294 6.3.1 Studies on small motions in a planar texture 295 6.3.2 Macroscopic flow 296 6.3.3 Convective instabilities 300 6.3.4 Torques induced by a heat flux 304 6.4 Textures and defects in cholesterics 308 6.4.1 Textures 308 6.4.2 Singular lines 313 6.5 Blue phases 320 6.5.1 Experimental observations 320 6.5.2 Double twist theories 323 6.5.3 Landau theory 329 MACROSCOPIC BEHAVIOUR OF SMECTICS AND COLUMNAR PHASES 337 7.1 Continuum description of smectics and columnar phases: statics 337 7.1.1 Choice of variables 337 7.1.2 Distortion free energy of (non-chiral) smectics 341 7.1.3 Distortion free energy of columnar phases 349 7.1.4 Boundary conditions 353 7.1.5 Particular geometries 357 7.1.6 Transitions induced by external forces: Helfrich-Hurault effect 361 7.1.7 Transitions induced by external forces: undulation by mechanical tension 364 7.1.8 Transitions induced by external forces: thermo-optic effect in smectics A 369 7.1.9 Fluctuations 370 7.2 Continuum description of chiral smectics and columnar phases 376 7.2.1 Chiral S* and S* 376 7.2.2 Chiral S* (S, S, and S) 377 7.2.3 Electric terms 379 7.2.4 Unwinding of the helix by an electric field 385 7.2.5 Fluctuations 389 7.2.6 Surface anchoring 390 7.2.7 Particular geometries 393 DYNAMICAL PROPERTIES OF SMECTICS AND COLUMNAR PHASES 408 8.1 Unified description 408 8.1.1 Preliminary remarks 408 8.1.2 Basic equations 410 8.1.3 Smectics A and columnar hexagonal phases 415 CONTENTS xv 8.1.4 The undulation mode 418 8.1.5 Permeation mode 420 8.1.6 Acoustic waves 421 8.1.7 Transverse modes 423 8.1.8 SBhex and Sc hydrodynamics 424 8.1.9 Remarks on the mode structure 429 8.2 Flow properties 430 8.2.1 Typical geometries 430 8.2.2 Flow past obstacles 435 8.2.3 Flow alignment 445 8.3 Breakdown of elasticity 452 8.3.1 Poor man s derivation 452 8.3.2 Splay modulus 454 8.3.3 Macroscopic non-linear stress-strain relation 455 8.3.4 Renormalization group results 455 8.4 Breakdown of hydrodynamics 457 8.4.1 Poor man s derivation 457 8.4.2 More general results 460 8.4.3 Columnar phases 461 8.4.4 Experimental situation 462 DEFECTS IN SMECTICS AND COLUMNAR PHASES 466 9.1 Observations 466 9.1.1 Large deformations in smectics 466 9.1.2 Large deformations in columnar phases 473 9.1.3 Dislocations 476 9.1.4 Disclinations 478 9.1.5 Walls 483 9.2 Dislocation and associated stress/strain 487 9.2.1 Distortions in smectics 487 9.2.2 Strain fields in columnar phases 500 10 PHASE TRANSITIONS IN SMECTICS 507 10.1 The A «± N transition 507 10.1.1 Mean-field description 507 10.1.2 The analogy with superconductors 509 10.1.3 Critical phenomena 514 10.1.4 Anisotropic scaling 517 10.1.5 Experimental situation 518 10.1.6 The search for an anisotropic fixed point 521 10.1.7 Nature of the N-SA transition 522 10.1.8 Poor man s dislocation unbinding transition 524 10.1.9 Twisted grain boundary phase 525 10.1.10 Current situation 527 xvi CONTENTS 10.2 Smectic A-smectic C transition 527 10.2.1 Superfluid analogy 527 10.2.2 Ginzburg criterion 529 10.2.3 Experimental findings 532 10.2.4 First-order SA ± Sc 532 10.2.5 N-A-C point 534 10.2.6 The Ѕд-Ѕс transition in two dimensions 540 10.3 Transitions involving hexatic phases 547 10.3.1 SA τ± Ѕцнех transition 547 10.3.2 Harmonics of hexatic ordering and scaling properties 549 10.4 Frustrated smectics 551 10.4.1 Experimental facts 551 10.4.2 Frustrated smectics model 557 10.4.3 Bilayer, partial bilayer smectics, incommensurate phases, and antiphases 560 10.4.4 Re-entrant behaviour 568 10.4.5 Ѕд-Ѕд isolated critical point and nematic bubble 570 10.4.6 Molecular aspects 575 Author index 587 Subject index 595
adam_txt	CONTENTS LIQUID CRYSTALS: MAIN TYPES AND PROPERTIES 1 1 3 3 6 6 8 9 10 10 10 12 13 17 18 19 20 22 24 26 26 26 27 27 28 29 31 32 34 LONG- AND SHORT-RANGE ORDER IN NEMATICS 41 2.1 Definition of an order parameter 41 2.1.1 Microscopic approach 41 2.1.2 Macroscopic approach 56 2.1.3 Relation between microscopic and macroscopic approaches 57 2.2 Statistical theories of the nematic order 59 2.2.1 Mean-field calculations for hard rods and platelets 59 2.2.2 Mean-field theory with S2 interaction 66 2.2.3 Computer calculations 73 1.1 Introduction: what is a liquid crystal? 1.2 The t juilding blocks 1.2.1 Small elongated organic molecules 1.2.2 Small discoid organic molecules 1.2.3 Long helical rods 1.2.4 Polymers 1.2.5 Associated structures 1.2.6 Summary 1.3 Nematics and cholesterics 1.3.1 Uniaxial nematics 1.3.2 Nematics of different symmetry 1.3.3 Cholesterics 1.3.4 Summary 1.4 Smectics 1.4.1 Smectics A 1.4.2 Smectics С 1.4.3 'Hexatic' smectics 1.4.4 'Crystalline' smectics 1.4.5 The D phase 1.5 Columnar phases 1.5.1 Hexagonal phases 1.5.2 Rectangular and oblique phases 1.5.3 'Antiphases' 1.6 Mon î on long-, quasilong-, and short-range order 1.6.1 'Poor man's' elasticity of liquid crystals 1.6.2 Fluctuations 1.6.3 Long-range, quasilong-range, short-range order 1.7 Remarkable features of liquid crystals CONTENTS 2.3 Phenomenological description of the nematic-isotropic transition 'J* 2.3.1 Landau free energy above Tc '" 2.3.2 Static pretransitional efTects '° 2.3.3 Biaxial phase °2 2.3.4 Failures of the mean-field approach 85 2.4 Mixtures 91 2.4.1 Importance of mixed systems "1 2.4.2 General trends 92 STATIC DISTORTIONS IN A NEMATIC SINGLE CRYSTAL 98 3.1 Principles of the continuum theory 98 3.1.1 Long-range distortions 98 3.1.2 The distortion free energy 100 3.1.3 Discussion of the distortion-energy formula 102 3.1.4 Boundary effects 108 3.1.5 Nematics transmit torques 116 3.2 Magnetic field effects 117 3.2.1 Molecular diamagnetism H ' 3.2.2 Definition of a magnetic coherence length 120 3.2.3 The Frederiks transition 123 3.3 Electric field effects in an insulating nematic 133 3.3.1 Dielectric anisotropy 133 3.3.2 Polarization induced by distortion (flexoelectric effect) 135 3.4 Fluctuations in the alignment 139 3.4.1 Light-scattering experiments 139 3.4.2 Orientation fluctuations and correlations in a nematic single crystal 141 3.4.3 Scattering of light by orientation fluctuations 144 3.5 Hydrostatics of nematics 150 3.5.1 Free energy and molecular field 150 3.5.2 Stresses and forces 151 3.5.3 The balance of torques 155 4 DEFECTS AND TEXTURES IN NEMATICS 163 4.1 Observations 163 4.1.1 Black filaments ('structures à fi Is') 163 4.1.2 'Structures à noyaux' ('Schlieren structures') 163 4.1.3 Types of defects 166 4.2 Disclination lines 168 4.2.1 Definition of the'strength' 168 4.2.2 Distortion field around one line 170 4.2.3 The concept of line tension 178 4.3 Point disclinations 180 4.3.1 Instability theorem for lines of integral strength 180 CONTENTS xiii 4.3.2 Interpretation of the noyaux 183 4.3.3 Other observations on point defects 184 4.4 Walls under magnetic fields 185 4.4.1 180° walls 187 4.4.2 Walls associated with a Frederiks transition 189 4.4.3 Transformation from walls to lines {'pincement') 190 4.5 Umbilics 194 4.6 Surface disclinations 194 5 DYNAMICAL PROPERTIES OF NEMATICS 198 5.1 The equations of'nematodynamics' 198 5.1.1 Coupling between orientation and flow 198 5.1.2 Choice of dynamical variables 199 5.1.3 The entropy source for a flowing nematic 200 5.1.4 The laws of friction 204 5.2 Experiments measuring the Leslie coefficients 209 5.2.1 Laminar flow under a strong orienting field 209 5.2.2 Attenuation of ultrasonic shear waves 213 5.2.3 Laminar flow in the absence of external fields 218 5.2.4 Variable external fields 220 5.2.5 Inelastic scattering of light 227 5.3 Convective instabilities under electric fields 230 5.3.1 Basic electrical parameters 230 5.3.2 Experimental observations at low frequencies 233 5.3.3 The Helfrich interpretation 236 5.3.4 Extension to higher frequencies 239 5.4 Molecular motions 245 5.4.1 Dielectric relaxation 245 5.4.2 Nuclear spin-lattice relaxation 246 5.4.3 Acoustic relaxation 248 5.4.4 Translational motions 250 5.4.5 Temperature variation of the friction coefficients 254 5.4.6 Semi-slow motions above Tc 255 6 CHOLESTERICS 263 6.1 Optical properties of an ideal helix 263 263 264 268 271 279 6.2 Agents influencing the pitch 280 281 286 6.1 .1 The planar texture 6. .2 Bragg reflections 6.1 .3 Transmission properties at arbitrary wavelengths (normal incidence) 6.1 .4 Interpretation 6.1 .5 Conclusions and generalizations Agents influencing the pitch 6.2.1 Physicochemical factors 6.2.2 External fields CONTENTS 6.3 Dynamical properties 294 6.3.1 Studies on small motions in a planar texture 295 6.3.2 Macroscopic flow 296 6.3.3 Convective instabilities 300 6.3.4 Torques induced by a heat flux 304 6.4 Textures and defects in cholesterics 308 6.4.1 Textures 308 6.4.2 Singular lines 313 6.5 Blue phases 320 6.5.1 Experimental observations 320 6.5.2 Double twist theories 323 6.5.3 Landau theory 329 MACROSCOPIC BEHAVIOUR OF SMECTICS AND COLUMNAR PHASES 337 7.1 Continuum description of smectics and columnar phases: statics 337 7.1.1 Choice of variables 337 7.1.2 Distortion free energy of (non-chiral) smectics 341 7.1.3 Distortion free energy of columnar phases 349 7.1.4 Boundary conditions 353 7.1.5 Particular geometries 357 7.1.6 Transitions induced by external forces: Helfrich-Hurault effect 361 7.1.7 Transitions induced by external forces: undulation by mechanical tension 364 7.1.8 Transitions induced by external forces: thermo-optic effect in smectics A 369 7.1.9 Fluctuations 370 7.2 Continuum description of chiral smectics and columnar phases 376 7.2.1 Chiral S* and S* 376 7.2.2 Chiral S* (S, S, and S) 377 7.2.3 Electric terms 379 7.2.4 Unwinding of the helix by an electric field 385 7.2.5 Fluctuations 389 7.2.6 Surface anchoring 390 7.2.7 Particular geometries 393 DYNAMICAL PROPERTIES OF SMECTICS AND COLUMNAR PHASES 408 8.1 Unified description 408 8.1.1 Preliminary remarks 408 8.1.2 Basic equations 410 8.1.3 Smectics A and columnar hexagonal phases 415 CONTENTS xv 8.1.4 The undulation mode 418 8.1.5 Permeation mode 420 8.1.6 Acoustic waves 421 8.1.7 Transverse modes 423 8.1.8 SBhex and Sc hydrodynamics 424 8.1.9 Remarks on the mode structure 429 8.2 Flow properties 430 8.2.1 Typical geometries 430 8.2.2 Flow past obstacles 435 8.2.3 Flow alignment 445 8.3 Breakdown of elasticity 452 8.3.1 Poor man's derivation 452 8.3.2 Splay modulus 454 8.3.3 Macroscopic non-linear stress-strain relation 455 8.3.4 Renormalization group results 455 8.4 Breakdown of hydrodynamics 457 8.4.1 Poor man's derivation 457 8.4.2 More general results 460 8.4.3 Columnar phases 461 8.4.4 Experimental situation 462 DEFECTS IN SMECTICS AND COLUMNAR PHASES 466 9.1 Observations 466 9.1.1 Large deformations in smectics 466 9.1.2 Large deformations in columnar phases 473 9.1.3 Dislocations 476 9.1.4 Disclinations 478 9.1.5 Walls 483 9.2 Dislocation and associated stress/strain 487 9.2.1 Distortions in smectics 487 9.2.2 Strain fields in columnar phases 500 10 PHASE TRANSITIONS IN SMECTICS 507 10.1 The A «± N transition 507 10.1.1 Mean-field description 507 10.1.2 The analogy with superconductors 509 10.1.3 Critical phenomena 514 10.1.4 Anisotropic scaling 517 10.1.5 Experimental situation 518 10.1.6 The search for an anisotropic fixed point 521 10.1.7 Nature of the N-SA transition 522 10.1.8 'Poor man's' dislocation unbinding transition 524 10.1.9 Twisted grain boundary phase 525 10.1.10 Current situation 527 xvi CONTENTS 10.2 Smectic A-smectic C transition 527 10.2.1 Superfluid analogy 527 10.2.2 Ginzburg criterion 529 10.2.3 Experimental findings 532 10.2.4 First-order SA ± Sc 532 10.2.5 N-A-C point 534 10.2.6 The Ѕд-Ѕс transition in two dimensions 540 10.3 Transitions involving hexatic phases 547 10.3.1 SA τ± Ѕцнех transition 547 10.3.2 Harmonics of hexatic ordering and scaling properties 549 10.4 Frustrated smectics 551 10.4.1 Experimental facts 551 10.4.2 Frustrated smectics model 557 10.4.3 Bilayer, partial bilayer smectics, incommensurate phases, and antiphases 560 10.4.4 Re-entrant behaviour 568 10.4.5 Ѕд-Ѕд isolated critical point and nematic bubble 570 10.4.6 Molecular aspects 575 Author index 587 Subject index 595
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owner_facet	DE-355 DE-BY-UBR DE-19 DE-BY-UBM DE-83 DE-20
physical	XVI, 597 S. Ill., graph. Darst.
publishDate	2007
publishDateSearch	2007
publishDateSort	2007
publisher	Clarendon Press
record_format	marc
series	The international series of monographs on physics
series2	The international series of monographs on physics
spelling	Gennes, Pierre-Gilles de 1932-2007 Verfasser (DE-588)128413344 aut The physics of liquid crystals P. G. de Gennes and J. Prost 2. ed., 1. publ. in paperback, reprint. Oxford Clarendon Press 2007 XVI, 597 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier The international series of monographs on physics 83 Hier auch später erschienene, unveränderte Nachdrucke Flüssigkristall (DE-588)4071279-5 gnd rswk-swf Flüssigkristall (DE-588)4071279-5 s DE-604 Prost, Jacques Verfasser aut The international series of monographs on physics 83 (DE-604)BV000106406 83 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016307706&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Gennes, Pierre-Gilles de 1932-2007 Prost, Jacques The physics of liquid crystals The international series of monographs on physics Flüssigkristall (DE-588)4071279-5 gnd
subject_GND	(DE-588)4071279-5
title	The physics of liquid crystals
title_auth	The physics of liquid crystals
title_exact_search	The physics of liquid crystals
title_exact_search_txtP	The physics of liquid crystals
title_full	The physics of liquid crystals P. G. de Gennes and J. Prost
title_fullStr	The physics of liquid crystals P. G. de Gennes and J. Prost
title_full_unstemmed	The physics of liquid crystals P. G. de Gennes and J. Prost
title_short	The physics of liquid crystals
title_sort	the physics of liquid crystals
topic	Flüssigkristall (DE-588)4071279-5 gnd
topic_facet	Flüssigkristall
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016307706&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000106406
work_keys_str_mv	AT gennespierregillesde thephysicsofliquidcrystals AT prostjacques thephysicsofliquidcrystals

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