International Conference on Quantum Physics of Nature (QuPoN 2015) Mitschnitt einer Veranstaltung der Fakultät für Physik in der Zeit von Montag, dem 18. bis Freitag, den 22. Mai 2015 im Großen Festsaal der Universität Wien (Die Vorträge am Mittwoch fanden an der Österreichischen Akademie der Wissenschaften statt und wurden nicht aufgezeichnet.) Schnitt: Daniel Winkler Abstract: This conference discusses work at the interface between the foundations of quantum physics and advanced quantum technologies. Questions focus on topics such as: Which foundations of quantum science will be most relevant for future technologies, such as quantum computing, quantum cryptography and communication, quantum simulaton or quantum sensing? What is the role and our understanding of locality, reality and time? - Teil 1. Eröffnung - Teil 2. David Wineland: "Exploring quantum with trapped ions" - Teil 3. Wojciech Zurek: "Quantum theory of the classical: decoherence, quantum Darwinism, and objective reality" - Teil 4. Nicolas Gisin: "Spins, magnets, PR-boxes and weak measurements" - Teil 5. Philippe Grangier: "Contexts, systems and modalities: a new ontology for quantum mechanics" - Teil 6. Rudolf Grimm: "Atom interferometry in a Fermi sea" - Teil 7. Artur Ekert: "The ultimate physical limits of privacy for the paranoid ones" - Teil 8. Alain Aspect: "An atomic Hong-Ou-Mandel experiment" - Teil 9. Ian Walmsley: "A la recherche du clair perdu: quantum memories for the real world" - Teil 10. Mikhail Lukin: "New interface between quantum optics and nanoscience" - Teil 11. Rainer Blatt: "Quantum information science with trapped Ca+ ions" - Teil 12. Andrew White: "Going down drains into blind alleys: from reality to causality in the quantum world" - Teil 13. Samuel Werner: "Neutron interferometry beyond Newton" - Teil 14. Lauriane Chomaz: "Dipolar quantum physics with strongly magnetic atoms" - Teil 15. Magdalena Zych: "Bell inequalities for temporal order of events" - Teil 16. Ana Predojević: "Quantum effects from quantum dots embedded in photonic nanowires" - Teil 17. Daqing Wang: "A very small Fabry-Pérot cavity" - Teil 18. Georg Heinze: "Controlled rephasing of single collective spin excitations in a cold atomic ensemble for temporally multiplexed quantum memories" - Teil 19. Kathrin Buczak: "Creation and charge state dynamics of NV centres for quantum applications" - Teil 20. Philipp Haslinger: "Atom-interferometry constrains on dark energy theories" - Teil 21. Boltzmann Lecture 2015 mit Stefan W. Hell: "Optical microscopy: the resolution revolution" - Teil 22. Markus Aspelmeyer: "New frontiers in quantum optomechanics: from levitation to gravitational quantum physics" - Teil 23. Stefan Bernet: "Light field control with 'thick' spatial light modulators and diffractive optical elements" - Teil 24. Gregor Weihs: "Photon sources and the foundations of quantum mechanics" - Teil 25. Markus Oberthaler: "Entanglement in mesoscopic atomic systems" - Teil 26. Herman Batelaan: "Controlled double slit electron diffraction" - Teil 27. Philip Walther: "Photonic quantum computation and quantum simulation" - Teil 28. Jörg Schmiedmayer: "Does an isolated many body quantum system relax?" - Teil 29. Gabriel Molina-Terriza: "Controlling the interaction of photons with nanostructures" - Teil 30. Johannes Kofler: "Requirements for a loophole-free Bell test using imperfect setting generators" - Teil 31. Kaoru Sanaka: "Photon-photon interaction with linear optics and semiconductor devices" - Teil 32. Rupert Ursin: "Experiments with quantum entanglement in space" - Teil 33. Christoph Simon: "Towards global entanglement" - Teil 34. Nathan Langford: "Digital quantum simulation of the ultrastrongly coupled Rabi model in a circuit QED system" - Teil 35. Simon Gröblacher: "Quantum experiments: from small to large" - Teil 36. Anthony Klein: "Some early experiments in neutron optics presented in honour of Anton Zeilinger" - Teil 37. Julian Voss-Andreae: "Sculptures inspired by physics, proteins, and people" - Teil 38. Paul Kwiat: "Superdense teleportation using hyperentangled photons" - Teil 39. Terry Rudolph: "How Einstein and / or Schrödinger should have discovered Bell's theorem in 1936" - Teil 40. Dirk Bouwmeester: "Knots of light, gravitational radiation, and plasma" - Teil 41. Ernst Rasel: "Quantum gravimetry" - Teil 42. Daniel Greenberger: "The role of mass and proper time in quantum mechanics" - Teil 43. Marek Zukowski: "Swapping entanglement with quanton" - Teil 44. Caslav Brukner: "Reconstructions of quantum theory - pros and contras" - Teil 45. Harald Weinfurter: "Verschränkt - not only entangled" - Teil 46. Anton Zeilinger: "VCQ & University of Vienna & ÖAW"

Quantenphysik, Grundlagen