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xvii | |
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1 Quantum optics with diamond color centers coupled to nanophotonic devices |
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1 | (28) |
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1.1 Introduction: quantum optics with solid-state systems |
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3 | (2) |
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1.2 Coherent atom-photon interactions using solid-state emitters |
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5 | (2) |
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1.3 Indistinguishable photons from separated silicon-vacancy centers in diamond |
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7 | (3) |
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1.4 Narrow-linewidth optical emitters in diamond nanostructures via silicon ion implantation |
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10 | (2) |
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1.5 Diamond nanophotonics platform for quantum nonlinear optics |
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12 | (2) |
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1.6 Two-SiV entanglement in a nanophotonic device |
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14 | (1) |
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1.7 SiV spin coherence at low temperatures |
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15 | (6) |
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21 | (8) |
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22 | (1) |
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22 | (7) |
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2 Searches for new, massive particles with AMO experiments |
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29 | (53) |
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2.1 Electromagnetism with a massive photon |
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31 | (2) |
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2.2 Searching for a new particle: the "hidden photon" |
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33 | (3) |
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2.3 Generalization into the language of particle physics |
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36 | (3) |
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2.4 New types of interactions from new types of force-mediating particles |
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39 | (1) |
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2.5 Example: Higgs boson exchange in atoms |
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40 | (4) |
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2.6 Effects in atoms from a generalized Higgs boson sector |
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44 | (10) |
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2.7 Particle dipole moments as probes of particle physics |
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54 | (10) |
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2.8 Searching for parity and time-reversal violation with molecules |
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64 | (13) |
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77 | (5) |
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78 | (4) |
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3 Molecular-physics aspects of cold chemistry |
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82 | (60) |
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84 | (3) |
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3.2 Introduction to the quantum-mechanical treatment of few-electron molecules |
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87 | (10) |
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3.3 Basic aspects of cold ion-molecule chemistry |
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97 | (7) |
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3.4 Cold samples by supersonic-beam deceleration methods |
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104 | (20) |
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124 | (7) |
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131 | (11) |
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132 | (1) |
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133 | (9) |
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4 Frequency combs and precision spectroscopy of atomic hydrogen |
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142 | (74) |
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144 | (39) |
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183 | (33) |
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207 | (1) |
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207 | (9) |
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5 Collective effects in quantum systems |
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216 | (5) |
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218 | (1) |
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5.2 Basic methods and concepts |
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218 | (1) |
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5.3 Correlated systems and cold atoms |
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219 | (1) |
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5.4 One-dimensional quantum systems |
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219 | (1) |
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219 | (2) |
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219 | (2) |
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6 Macroscopic scale atom interferometers: introduction, techniques, and applications |
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221 | (71) |
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6.1 Overview of these notes |
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223 | (1) |
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6.2 Introduction to atom interferometry |
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223 | (10) |
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6.3 Large Momentum Transfer (LMT) atom optics |
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233 | (6) |
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6.4 Ten meter atomic fountain for long duration atom interferometry |
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239 | (3) |
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6.5 Differential measurement strategies and applications of atom interferometry |
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242 | (9) |
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251 | (1) |
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6.7 Efficient optical lattice launching |
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252 | (6) |
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6.8 Theory of atom optics with optical lattices |
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258 | (30) |
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6.9 Conclusion and outlook |
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288 | (4) |
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288 | (4) |
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7 Quantum jumps, Born's rule, and objective classical reality via quantum Darwinism |
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292 | (34) |
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7.1 Introduction and preview |
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294 | (2) |
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7.2 Quantum postulates and relative states |
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296 | (4) |
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7.3 Quantum origin of quantum jumps |
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300 | (4) |
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7.4 Probabilities from entanglement |
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304 | (7) |
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7.5 Quantum Darwinism, classical reality, and objective existence |
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311 | (6) |
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7.6 Discussion: frequently asked questions |
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317 | (4) |
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321 | (5) |
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322 | (4) |
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8 Generation of high-order harmonics and attosecond pulses |
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326 | (17) |
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8.1 High-order harmonic generation in strong laser fields |
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328 | (5) |
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333 | (5) |
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8.3 An introduction to attosecond physics with attosecond pulse trains |
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338 | (5) |
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342 | (1) |
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342 | (1) |
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9 Ultrafast electron dynamics as a route to explore chemical processes |
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343 | (24) |
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345 | (7) |
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9.2 Correlated electron dynamics following ionization |
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352 | (11) |
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363 | (4) |
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366 | (1) |
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10 Matter-wave physics with nanoparticles and biomolecules |
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367 | (35) |
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369 | (2) |
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10.2 Derealization and diffraction |
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371 | (15) |
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10.3 Quantum enhanced measurements |
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386 | (2) |
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10.4 Molecular beam sources for nanoscale organic matter and biomolecules |
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388 | (6) |
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394 | (8) |
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395 | (1) |
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395 | (7) |
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11 Schrodinger cat states in circuit QED |
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402 | (26) |
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11.1 Introduction to Circuit QED |
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404 | (3) |
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11.2 Measurement of photon number parity |
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407 | (3) |
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11.3 Application of parity measurements to state tomography |
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410 | (2) |
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412 | (4) |
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11.5 Decoherence of cat states of photons |
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416 | (3) |
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11.6 Conclusions and outlook |
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419 | (1) |
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11.7 Appendix: the Wigner function and displaced parity measurements |
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420 | (8) |
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425 | (1) |
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426 | (2) |
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12 Hanbury Brown and Twiss, Hong Ou and Mandel effects and other landmarks in quantum optics: from photons to atoms |
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428 | |
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12.1 Two great quantum mysteries |
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431 | (1) |
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12.2 The Hanbury Brown and Twiss effect for photons |
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431 | (6) |
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12.3 The Hanbury Brown and Twiss effect for atoms |
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437 | (4) |
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12.4 The Hong Ou and Mandel effect for photons |
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441 | (2) |
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12.5 The Hong Ou and Mandel effect for atoms |
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443 | (2) |
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12.6 Outlook: towards Bell's inequalities test with atoms |
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445 | |
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447 | |
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