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More About This Title Twisted Photons - Applications of Light withOrbital Angular Momentum
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Lluis Torner is the founding Director of ICFO-The Institute of Photonic Sciences in Barcelona, Spain, and professor of photonics at the Technical University of Catalonia. He conducts research and innovation in photonics, with emphasis on fundamentals and applications of nonlinear optics, optical vortices and optical solitons. He has co-authored more than 300 articles in scienti? c journals. He is a Fellow of the Optical Society of America, the European Optical Society and the European Physical Society, and he currently serves as President of the Association of Research Institutions of Catalonia.
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Preface XI
List of Contributors XV
Color Plates XIX
1 The Orbital Angular Momentum of Light: An Introduction 1
Les Allen and Miles Padgett
1.1 Introduction 1
1.2 The Phenomenology of Orbital Angular Momentum 4
References 9
2 Vortex Flow of Light: ‘‘Spin’’ and ‘‘Orbital’’ Flows in a Circularly Polarized Paraxial Beam 13
Aleksandr Bekshaev and Mikhail Vasnetsov
2.1 Introduction 13
2.2 Spin and Orbital Flows: General Concepts 14
2.3 Transverse Energy Flows in Circularly Polarized Paraxial Beams 15
2.4 Orbital Rotation without Orbital Angular Momentum 21
2.5 Conclusion 22
References 23
3 Helically Phased Beams, and Analogies with Polarization 25
Miles Padgett
3.1 Introduction 25
3.2 Representation of Helically Phased Beams 26
3.3 Exploiting the Analogous Representations of Spin and Orbital Angular Momentum 27
3.4 Conclusions 33
References 34
4 Trapping and Rotation of Particles in Light Fields with Embedded Optical Vortices 37
Michael Mazilu and Kishan Dholakia
4.1 Introduction 37
4.2 Laguerre–Gaussian Light Beams 38
4.3 Origin of Optical Torques and Forces 41
4.4 Optical Vortex Fields for the Rotation of Trapped Particles 51
4.5 Optical Vortex Fields for Advanced Optical Manipulation 57
4.6 Conclusions 61
Acknowledgments 62
References 62
5 Optical Torques in Liquid Crystals 67
Enrico Santamato and Bruno Piccirillo
5.1 The Optical Reorientation and the Photon Angular Momentum Flux 70
5.2 Dynamical Effects Induced in Liquid Crystals by Photon SAM and OAM Transfer 78
5.3 Conclusions 89
References 90
6 Driving Optical Micromachines with Orbital Angular Momentum 93
Vincent L.Y. Loke, Theodor Asavei, Simon Parkin, Norman R. Heckenberg, Halina Rubinsztein-Dunlop, and Timo A. Nieminen
6.1 Introduction 93
6.2 Symmetry, Scattering, and Optically Driven Micromachines 93
6.3 Experimental Demonstration 96
6.4 Computational Optimization of Design 102
6.5 Conclusion 113
References 113
7 Rotational Optical Micromanipulation with Specific Shapes Built by Photopolymerization 117
Péter Galaja, Lóránd Kelemen, László Oroszi, and Pál Ormos
7.1 Introduction 117
7.2 Microfabrication by Photopolymerization 118
7.3 Light-Driven Rotors, Micromachines 121
7.4 Integrated Optical Motor 128
7.5 Angular Trapping of Flat Objects in Optical Tweezers Formed by Linearly Polarized Light 131
7.6 Torsional Manipulation of DNA 134
7.7 Conclusion 138
Acknowledgment 139
References 139
8 Spiral Phase Contrast Microscopy 143
Christian Maurer, Stefan Bernet, and Monika Ritsch-Marte
8.1 Phase Contrast Methods in Light Microscopy 143
8.2 Fourier Filtering in Optical Imaging 144
8.3 Spiral Phase Fourier Filtering 146
8.4 Implementation and Performance 151
8.5 Conclusions 152
References 152
9 Applications of Electromagnetic OAM in Astrophysics and Space Physics Studies 155
Bo Thidé, Nicholas M. Elias II, Fabrizio Tamburini, Siavoush M. Mohammadi, and José T.Mendonça
9.1 Introduction 155
9.2 Ubiquitous Astronomical POAM 156
9.3 Applications of POAM in Astronomy 158
9.4 Applications of POAM in Space Physics 165
9.A. Appendix: Theoretical Foundations 169
References 175
10 Optical Vortex Cat States and their Utility for Creating Macroscopic Superpositions of Persistent Flows 179
Ewan M. Wright
10.1 Introduction 179
10.2 Optical Vortex Cat States 181
10.3 Macroscopic Superposition of Persistent Flows 189
10.4 Summary and Conclusions 195
References 195
11 Experimental Control of the Orbital Angular Momentum of Single and Entangled Photons 199
Gabriel Molina-Terriza and Anton Zeilinger
11.1 Introduction to the Photon OAM 199
11.2 Control of the OAM State of a Single Photon 201
11.3 Control of the OAM State of Multiple Photons 203
11.4 Applications in Quantum Information 207
11.5 Discussion 209
11.6 Conclusion 211
References 211
12 Rotating Atoms with Light 213
Kristian Helmerson and William D. Phillips
12.1 Introduction 213
12.2 Orbital Angular Momentum of Light 213
12.3 The Mechanical Effects of Light 214
12.4 Rotating Bose–Einstein Condensates 215
12.5 Measuring the Rotational Motion of the Atoms 220
12.6 Generating Other Rotational States of Atoms 224
12.7 Supercurrents 230
12.8 Conclusion 231
Acknowledgments 232
References 232
Index 237
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has considerable scope for further growth. If one wishes to play a role in the future of orbital angular
momentum then this is an excellent place to start." (Contemporary Physics Book Reviews, 25 August 2011)