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Anton Zeilinger

January 06, 2023

Anton Zeilinger (German: [ˈanton ˈtsaɪlɪŋɐ]; born 20 May 1945) is an Austrian quantum physicist and Nobel laureate in physics of 2022.[8] Zeilinger is professor of physics emeritus at the University of Vienna and senior scientist at the Institute for Quantum Optics and Quantum Information of the Austrian Academy of Sciences.[9] Most of his research concerns the fundamental aspects and applications of quantum entanglement.

Anton Zeilinger
Born (1945-05-20) 20 May 1945 (age 77)
Ried im Innkreis, Austria
Alma mater
Known for
Awards
[1]
Scientific career
FieldsPhysics, Quantum mechanics
Institutions
ThesisNeutron depolarization measurements on a Dy-single crystal (1972)
Doctoral advisorHelmut Rauch
Doctoral students

In 2007, Zeilinger received the first Inaugural Isaac Newton Medal of the Institute of Physics, London, for "his pioneering conceptual and experimental contributions to the foundations of quantum physics, which have become the cornerstone for the rapidly-evolving field of quantum information".[10][9] In October 2022, he received the Nobel Prize in Physics, jointly with Alain Aspect and John Clauser for their outstanding work involving experiments with entangled photons, establishing the violation of Bell inequalities and pioneering quantum information science.[11]

Early life and education

Anton Zeilinger was born in 1945 in Ried im Innkreis, Upper Austria, Austria. He studied physics at the University of Vienna from 1963 to 1971.[12] He received a doctorate from the University of Vienna in 1971, with a thesis on "Neutron depolarization measurements on a Dy-single crystal" under Helmut Rauch. He qualified as a university lecturer (habilitation) at the Vienna University of Technology in 1979.[13][14]

Career

In the 1970s, Zeilinger worked at the Vienna Atominstitut as a research assistant and associate researcher at the Massachusetts Institute of Technology Neutron Diffraction Laboratory until 1979, when he accepted the position of assistant professor at the same Atominstitut. That year he qualified as a university professor. at the Vienna University of Technology.[12]

In 1981 Zeilinger returned to MIT in 1981 as an associate professor on the physics faculty until 1983. Between 1980 and 1990 he worked as a professor at the Vienna University of Technology, the Technical University of Munich, the University of Innsbruck and the University of Vienna. He was also, between 2004 and 2013, the scientific director of the Institute for Quantum Optics and Quantum Information in Vienna between 2004 and 2013.[12] Zeilinger became professor emeritus at the University of Vienna in 2013.[12] He was president of the Austrian Academy of Sciences from 2013 till 2022.[15]

Since 2006, Zeilinger is the vice chairman of the board of trustees of the Institute of Science and Technology Austria, an ambitious project initiated by Zeilinger's proposal. In 2009, he founded the International Academy Traunkirchen,[16] which is dedicated to the support of gifted students in science and technology. He is a fan of the Hitchhiker's Guide To The Galaxy by Douglas Adams, going so far as to name his sailboat 42.[17]

Research

Quantum teleportation

Main article: Quantum teleportation

Most widely known is his first realization of quantum teleportation of an independent qubit.[18] He later expanded this work to developing a source for freely propagating teleported qubits[19] and quantum teleportation over 144 kilometers between two Canary Islands.[20] Quantum teleportation is an essential concept in many quantum information protocols. Besides its role for the transfer of quantum information, it is also considered as an important possible mechanism for building gates within quantum computers.[21]

Entanglement swapping – teleportation of entanglement

Main article: Entanglement swapping

Entanglement swapping is the teleportation of an entangled state. After its proposal,[22] entanglement swapping has first been realized experimentally by Zeilinger's group in 1998.[23] It was then applied to carry out a delayed-choice entanglement swapping test.[24]

Entanglement beyond two qubits – GHZ-states and their realizations

 
Anton Zeilinger holding a sculpture by Julian Voss-Andreae, photo by J. Godany

Anton Zeilinger contributed decisively to the opening up of the field of multi-particle entanglement.[25] In 1990, he was the first with Daniel Greenberger and Michael Horne to work on entanglement of more than two qubits.[26] The resulting GHZ theorem (see Greenberger–Horne–Zeilinger state) is fundamental for quantum physics, as it provides the most succinct contradiction between local realism and the predictions of quantum mechanics.[27]

GHZ states were the first instances of multi-particle entanglement ever investigated.[28]

Finally, in 1999, he succeeded in providing the first experimental evidence of entanglement beyond two particles[29] and also the first test of quantum nonlocality for GHZ states.[30]

Quantum communication, quantum cryptography, quantum computation

In 1998 (published in 2000), his group was the first to implement quantum cryptography with entangled photons.[31]

He then also applied quantum entanglement to optical quantum computation, where in 2005,[32] he performed the first implementation of one-way quantum computation. This is a protocol based on quantum measurement as proposed by Knill, Laflamme and Milburn.[33]

The experiments of Zeilinger and his group on the distribution of entanglement over large distances began with both free-space and fiber-based quantum communication and teleportation between laboratories located on the different sides of the river Danube.[34] This was then extended to larger distances across the city of Vienna[35] and over 144 km between two Canary Islands, resulting in a successful demonstration that quantum communication with satellites is feasible. His dream is to put sources of entangled light onto a satellite in orbit.[17] A first step was achieved during an experiment at the Italian Matera Laser Ranging Observatory [it].[36]

Further novel entangled states

With his group, Anton Zeilinger made many contributions to the realization of novel entangled states. The source for polarization-entangled photon pairs developed with Paul Kwiat when he was a PostDoc in Zeilinger's group[37] became a workhorse in many laboratories worldwide. The first demonstration of entanglement of orbital angular momentum of photons opened up a new burgeoning field of research in many laboratories.[38]

Macroscopic quantum superposition

Zeilinger is also interested to extend quantum mechanics into the macroscopic domain. In the early 1990s, he started experiments in the field of atom optics. He developed a number of ways to coherently manipulate atomic beams, many of which, like the coherent energy shift of an atomic De Broglie wave upon diffraction at a time-modulated light wave, have become cornerstones of today's ultracold atom experiments. In 1999, Zeilinger abandoned atom optics for experiments with very complex and massive macro-molecules – fullerenes. The successful demonstration of quantum interference for these C60 and C70 molecules[39] in 1999 opened up a very active field of research.

In 2005, Zeilinger with his group again started a new field, the quantum physics of mechanical cantilevers. The group was the first – in the year 2006 along with work from Heidmann in Paris and Kippenberg in Garching – to demonstrate experimentally the self-cooling of a micro-mirror by radiation pressure, that is, without feedback.[40]

Using orbital angular momentum states, he was able to demonstrate entanglement of angular momentum up to 300 ħ.[41]

Further fundamental tests

Zeilinger's program of fundamental tests of quantum mechanics is aimed at implementing experimental realizations of many non-classical features of quantum physics for individual systems. In 1998,[42] he provided the final test of Bell's inequality closing the communication loophole by using superfast random number generators. His group also realized the first Bell inequality experiment implementing the freedom-of-choice condition[43] and provided the first realization of a Bell test without the fair sampling assumption for photons.[44]

Among the further fundamental tests he performed the most notable one is his test of a large class of nonlocal realistic theories proposed by Leggett.[45] The group of theories excluded by that experiment can be classified as those which allow reasonable subdivision of ensembles into sub-ensembles. It goes significantly beyond Bell's theorem. While Bell showed that a theory which is both local and realistic is at variance with quantum mechanics, Leggett considered nonlocal realistic theories where the individual photons are assumed to carry polarization. The resulting Leggett inequality was shown to be violated in the experiments of the Zeilinger group.[46]

In an analogous way, his group showed that even quantum systems where entanglement is not possible exhibit non-classical features which cannot be explained by underlying non-contextual probability distributions.[47]

Neutron interferometry

Anton Zeilinger's earliest work is perhaps his least known. His work on neutron interferometry has provided an important foundation for his later research achievements. As a member of the group of his thesis supervisor, Helmut Rauch, at the Technical University of Vienna, Zeilinger participated in a number of neutron interferometry experiments at the Institut Laue–Langevin (ILL) in Grenoble. His very first such experiment confirmed a fundamental prediction of quantum mechanics, the sign change of a spinor phase upon rotation.[48] This was followed by the first experimental realization of coherent spin superposition of matter waves. He continued his work in neutron interferometry at MIT with C.G. Shull (Nobel Laureate), focusing specifically on dynamical diffraction effects of neutrons in perfect crystals which are due to multi-wave coherent superposition. After his return to Europe, he built up an interferometer for very cold neutrons which preceded later similar experiments with atoms. The fundamental experiments there included a most precise test of the linearity of quantum mechanics. Zeilinger built a beautiful double-slit diffraction experiment[49] on the S18 instrument at the Institut Laue-Langevin which, later on, gained in accuracy and could act with only one neutron at a time in the apparatus.[50]

Works

Zeilinger has written more than 550 scientific articles, of which 500 are peer reviewed and 16 are considered highly cited papers.[51]

Honours and awards

International prizes and awards

Austrian prizes and awards

Memberships

Further distinctions

Distinguished lectureships

In popular culture

Zeilinger has been interviewed by Morgan Freeman in season 2 of Through the Wormhole.[92]

References

  1. ^ a b Korte, Andrea (4 October 2022). "AAAS Fellow Anton Zeilinger Is a Winner of the Nobel Prize in Physics". American Association for the Advancement of Science. Retrieved 29 October 2022.
  2. ^ Barz, Stefanie (15 October 2012). "Photonic Quantum Computing". from the original on 4 October 2022. Retrieved 15 October 2021 – via othes.univie.ac.at.
  3. ^ "Prof. Dr. Stefanie Barz". Institute for Functional Matter and Quantum Technologies, University of Stuttgart. from the original on 24 October 2021. Retrieved 15 October 2021.
  4. ^ . Archived from the original on 4 March 2016. Retrieved 20 November 2015.
  5. ^ Thomas Jennewein (11 June 2002). (PDF). Archived from the original (PDF) on 20 November 2015. Retrieved 20 November 2015.
  6. ^ "Gregor Weihs – CV". Universität Innsbruck. Retrieved 6 October 2022.
  7. ^ Weihs, G.; Jennewein, T.; Simon, C.; Weinfurter, H.; Zeilinger, A. (7 December 1998). "Violation of Bell's Inequality under Strict Einstein Locality Conditions". Physical Review Letters. 81 (23): 5039–5043. arXiv:quant-ph/9810080. Bibcode:1998PhRvL..81.5039W. doi:10.1103/physrevlett.81.5039. S2CID 29855302.
  8. ^ "The Nobel Prize in Physics 2022". NobelPrize.org. Retrieved 4 October 2022.
  9. ^ a b "Anton Zeilinger". www.nasonline.org. Retrieved 4 October 2022.
  10. ^ "Anton Zeilinger scoops first Isaac Newton medal". Physics World. 3 October 2007. Retrieved 4 October 2022.
  11. ^ a b Ahlander, Johan; Burger, Ludwig; Pollard, Niklas (4 October 2022). "Nobel physics prize goes to sleuths of 'spooky' quantum science". Reuters. Retrieved 4 October 2022.
  12. ^ a b c d "Anton Zeilinger". Encyclopedia Britannica.
  13. ^ "Curriculum Vitae Anton Zeilinger" (PDF). Austrian Academy of Sciences. 30 September 2022. (PDF) from the original on 30 August 2022. Retrieved 4 October 2022.
  14. ^ "Neutron depolarization measurements on a Dy-single crystal" (PDF). Austrian Academy of Sciences. 1972. (PDF) from the original on 8 January 2022. Retrieved 4 October 2022.
  15. ^ . Vienna Center for Quantum Science and Technology. 16 March 2013. Archived from the original on 13 October 2014. Retrieved 23 September 2013.
  16. ^ "International Academy Traunkirchen". from the original on 19 December 2014. Retrieved 15 October 2021.
  17. ^ a b Minkel, JR (1 August 2007). "The Gedanken Experimenter". Scientific American. 297 (2): 94–96. Bibcode:2007SciAm.297b..94M. doi:10.1038/scientificamerican0807-94. PMID 17894178.
  18. ^ D. Bouwmeester, J. W. Pan, K. Mattle, M. Eibl, H. Weinfurter & A. Zeilinger, Experimental Quantum Teleportation, Nature 390, 575–579 (1997). Abstract 29 October 2009 at the Wayback Machine. Selected for the Nature "Looking Back" category of classic papers from Nature's archive; one of ISI's "Highly Cited Papers".
  19. ^ J.-W. Pan, S. Gasparoni, M. Aspelmeyer, T. Jennewein & A. Zeilinger, Experimental Realization of Freely Propagating Teleported Qubits, Nature 421, 721–725 (2003). Abstract 15 November 2013 at the Wayback Machine.Selected by the International Institute of Physics as one of the top ten Physics Highlights in 2003.
  20. ^ X.-S. Ma, T. Herbst, T. Scheidl, D. Wang, S. Kropatschek, W. Naylor, B. Wittmann, A. Mech, J. Kofler, E. Anisimova, V. Makarov, T. Jennewein, R. Ursin & A. Zeilinger, Quantum teleportation over 143 kilometres using active feed-forward, Nature 489, 269–273 (2012). Abstract 4 October 2022 at the Wayback Machine. Ranked as a "highly cited paper" by Thomson Reuters' Web of Science, placing it in the 1% of the academic field of physics based on a highly cited threshold for the field and publication year.
  21. ^ Shelton, Jim (5 September 2018). "Yale researchers 'teleport' a quantum gate". YaleNews. Retrieved 4 October 2022.
  22. ^ M. Zukowski, A. Zeilinger, M. A. Horne & A.K. Ekert, Event-Ready-Detectors Bell Experiment via Entanglement Swapping, Phys. Rev. Lett. 71, 4287–90 (1993). Abstract.
  23. ^ J.-W. Pan, D. Bouwmeester, H. Weinfurter & A. Zeilinger, Experimental entanglement swapping: Entangling photons that never interacted, Phys. Rev. Lett. 80 (18), 3891–3894 (1998). Abstract.
  24. ^ X.-S. Ma, S.Zotter, J. Kofler, R. Ursin, T. Jennewein, Č. Brukner & A. Zeilinger, Experimental delayed-choice entanglement swapping, Nature Physics 8, 479–484 (2012). Abstract 4 October 2022 at the Wayback Machine.
  25. ^ D. Greenberger; M. Horne; A. Zeilinger (1 August 1993). "Multiparticle Interferometry and the Superposition Principle". Physics Today. 46 (8): 22. Bibcode:1993PhT....46h..22G. doi:10.1063/1.881360. from the original on 23 April 2021. Retrieved 21 April 2021.
  26. ^ D. M. Greenberger, M. A. Horne, A. Shimony & A. Zeilinger, Bell's Theorem without Inequalities, American Journal of Physics 58, 1131–1143 (1990). This paper has become a citation classic.
  27. ^ Daniel M. Greenberger; Michael A. Horne; Anton Zeilinger (1989). "Going Beyond Bell's Theorem". In Kafatos, Menos (ed.). Bell's Theorem, Quantum Theory, and Conceptions of the Universe (1 ed.). Heidelberg: Springer. pp. 69–72. arXiv:0712.0921. ISBN 978-94-017-0849-4. from the original on 24 February 2021. Retrieved 22 April 2021.
  28. ^ Jian-Wei Pan; Zeng-Bing Chen; Chao-Yang Lu; Harald Weinfurter; Anton Zeilinger; Marek Żukowski (11 May 2012). "Multiphoton entanglement and interferometry". Rev. Mod. Phys. 84 (2): 777. arXiv:0805.2853. Bibcode:2012RvMP...84..777P. doi:10.1103/RevModPhys.84.777. S2CID 119193263. from the original on 25 May 2021. Retrieved 21 April 2021. Ranked as a "highly cited paper" by Thomson Reuters' Web of Science, placing it in the 1% of the academic field of physics based on a highly cited threshold for the field and publication year.
  29. ^ D. Bouwmeester, J.-W. Pan, M. Daniell, H. Weinfurter & A. Zeilinger, Observation of three-photon Greenberger–Horne–Zeilinger entanglement, Phys. Rev. Lett. 82 (7), 1345–1349 (1999). Abstract 4 October 2022 at the Wayback Machine.
  30. ^ J.-W. Pan, D. Bouwmeester, M. Daniell, H. Weinfurter & A. Zeilinger, Experimental test of quantum nonlocality in three-photon Greenberger-Horne-Zeilinger entanglement, Nature 403, 515–519 (2000). Abstract 15 November 2013 at the Wayback Machine.
  31. ^ T. Jennewein, C. Simon, G. Weihs, H. Weinfurter & A. Zeilinger, Quantum Cryptography with Entangled Photons, Phys. Rev. Lett. 84, 4729–4732 (2000). Abstract. This paper was featured in several popular science magazines, both online and in print.
  32. ^ P. Walther, K.J. Resch, T. Rudolph, E. Schenck, H. Weinfurter, V. Vedral, M. Aspelmeyer & A. Zeilinger, Experimental one-way quantum computing, Nature 434 (7030), 169–176 (2005). Abstract 4 October 2022 at the Wayback Machine.
  33. ^ E. Knill, R. Laflamme & G. J. Milburn, A scheme for efficient quantum computation with linear optics, Nature 409, 46–52 (2001). Abstract 14 November 2013 at the Wayback Machine.
  34. ^ Rupert Ursin; Thomas Jennewein; Markus Aspelmeyer; Rainer Kaltenbaek; Michael Lindenthal; Philip Walther; Anton Zeilinger (18 August 2004). "Quantum teleportation across the Danube". Nature. 430 (7002): 849. doi:10.1038/430849a. PMID 15318210. S2CID 4426035. from the original on 4 October 2022. Retrieved 21 April 2021.
  35. ^ Markus Aspelmeyer; Hannes R. Böhm; Tsewang Gyatso; Thomas Jennewein; Rainer Kaltenbaek; Michael Lindenthal; Gabriel Molina-Terriza; Andreas Poppe; Kevin Resch; Michael Taraba; Rupert Ursin; Philip Walther; Anton Zeilinger (1 August 2003). "Long-Distance Free-Space Distribution of Quantum Entanglement". Science. 301 (5633): 621–623. Bibcode:2003Sci...301..621A. doi:10.1126/science.1085593. PMID 12817085. S2CID 40583982.
  36. ^ P. Villoresi, T. Jennewein, F. Tamburini, M. Aspelmeyer, C. Bonato, R. Ursin, C. Pernechele, V. Luceri, G. Bianco, A. Zeilinger & C. Barbieri,Experimental verification of the feasibility of a quantum channel between Space and Earth 22 November 2017 at the Wayback Machine, New Journal of Physics 10, 033038 (2008). Highlight of New J. Phys. for 2008.
  37. ^ P.G. Kwiat, K. Mattle, H. Weinfurter, A. Zeilinger, A.V. Sergienko & Y.H. Shih, New High-Intensity Source of Polarization-Entangled Photon Pairs, Phys. Rev. Lett. 75 (24), 4337–41 (1995). Abstract.
  38. ^ A. Mair, A. Vaziri, G. Weihs & A. Zeilinger, Entanglement of the orbital angular momentum states of photons, Nature 412 (6844), 313–316 (2001). Abstract 3 May 2010 at the Wayback Machine.
  39. ^ M. Arndt, O. Nairz, J. Voss-Andreae, C. Keller, G. van der Zouw & A. Zeilinger, Wave-particle duality of C60 molecules, Nature 401, 680–682 (1999). Abstract 21 September 2012 at the Wayback Machine. Selected by the American Physical Society as a physics highlight of 1999.
  40. ^ S. Gigan, H. R. Böhm, M. Paternostro, F. Blaser, G. Langer, J. B. Hertzberg, K. Schwab, D. Bäuerle, M. Aspelmeyer & A. Zeilinger, Self-cooling of a micro-mirror by radiation pressure, Nature 444, 67–70 (2006). Abstract 1 August 2013 at the Wayback Machine. Selected as "Highlight of the recent literature" by Science (January 2007). Ranked as a highly cited paper by Thomson Reuters' Web of Science, placing it in the 1% of the academic field of physics based on a highly cited threshold for the field and publication year.
  41. ^ R. Fickler, R. Lapkiewicz, W. N. Plick, M. Krenn, C. Schäff, S. Ramelow & A. Zeilinger, Quantum entanglement of high angular momenta, Science 338, 640–643 (2012). Abstract 29 December 2021 at the Wayback Machine. Selected as one of the top 10 breakthroughs of the year 2012 by IOP's Physics World. Also featured in DPG's Physik Journal. Ranked as a "highly cited paper" by Thomson Reuters' Web of Science, placing it in the 1% of the academic field of physics based on a highly cited threshold for the field and publication year.
  42. ^ G. Weihs, T. Jennewein, C. Simon, H. Weinfurter & A. Zeilinger, Violation of Bell's inequality under strict Einstein locality conditions, Phys. Rev. Lett. 81 (23), 5039–5043 (1998). Abstract. This paper is a classic. It is cited (among others) in the German Wikipedia article on Bell's inequality and in several popular science books and science books for University students.
  43. ^ T. Scheidl, R. Ursin, J. Kofler, S. Ramelow, X. Ma, T. Herbst, L. Ratschbacher, A. Fedrizzi, N. K. Langford, T. Jennewein & A. Zeilinger, Violation of local realism with freedom of choice, PNAS 107 (46), 19709 – 19713 (2010). Abstract
  44. ^ M. Giustina; A. Mech; S. Ramelow; B. Wittmann; J. Kofler; J. Beyer; A. Lita; B. Calkins; T. Gerrits; S.-W. Nam; R. Ursin; A. Zeilinger (2013). "Bell violation using entangled photons without the fair-sampling assumption". Nature. 497 (7448): 227–230. arXiv:1212.0533. Bibcode:2013Natur.497..227G. doi:10.1038/nature12012. PMID 23584590. S2CID 18877065. from the original on 4 October 2022. Retrieved 21 April 2021.. Ranked as a "highly cited paper" by Thomson Reuters' Web of Science, placing it in the 1% of the academic field of physics based on a highly cited threshold for the field and publication year.
  45. ^ A. J. Leggett, Nonlocal Hidden-Variable Theories and Quantum Mechanics: An Incompatibility Theorem, Foundations of Physics 33 (10), 1469–1493 (2003)(doi:10.1023/A:1026096313729) Abstract 4 October 2022 at the Wayback Machine.
  46. ^ S. Gröblacher, T. Paterek, R. Kaltenbaek, C. Brukner, M. Zukowski, M. Aspelmeyer & A. Zeilinger, An experimental test of non-local realism, Nature 446, 871–875 (2007). Abstract 15 April 2016 at the Wayback Machine.
  47. ^ R. Lapkiewicz, P. Li, C. Schäff, N. K. Langford, S. Ramelow, M. Wiesniak & A. Zeilinger, Experimental non-classicality of an indivisible quantum system, Nature 474, 490–493 (2011).Abstract 7 September 2011 at the Wayback Machine
  48. ^ H. Rauch; A. Zeilinger; G. Badurek; A. Wilfing; W. Bauspiess; U. Bonse (20 October 1975). "Verification of coherent spinor rotation of fermions". Physics Letters A. 54 (6): 425–427. Bibcode:1975PhLA...54..425R. doi:10.1016/0375-9601(75)90798-7. from the original on 4 October 2022. Retrieved 21 April 2021.
  49. ^ Zeilinger, Anton; Gähler, Roland; Shull, C. G.; Treimer, Wolfgang; Mampe, Walter (1 October 1988). "Single- and double-slit diffraction of neutrons". Reviews of Modern Physics. 60 (4): 1067–1073. Bibcode:1988RvMP...60.1067Z. doi:10.1103/RevModPhys.60.1067. ISSN 0034-6861.
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  92. ^ How Does the Universe Work?

External links

 
Scholia has a profile for Anton Zeilinger (Q78610).
 
Wikimedia Commons has media related to Anton Zeilinger.
 
Wikiquote has quotations related to Anton Zeilinger.
  • Anton Zeilinger on Nobelprize.org  
  • Anton Zeilinger publications indexed by Google Scholar  
  • Curriculum Vitae of Anton Zeilinger
  • . Vienna Center for Quantum Science and Technology. Archived from the original on 17 April 2016. Retrieved 23 June 2016.
  • Quantum Teleportation by Zeilinger, 2003 update of 2000 Scientific American article
  • Hans Christian von Baeyer (17 February 2001). "In the beginning was the bit". New Scientist. 169 (2278): 26–30.
  • Spooky action and beyond an interview with Anton Zeilinger at signandsight.com
  • The lecture delivered by Professor Anton Zeilinger as the inaugural recipient of the Isaac Newton Medal, Institute of Physics, 17 June 2008, [1] (68 min 25 sec).
    Note: On the page linked, a second video is accommodated which shows Professor Zeilinger speaking amongst others about his personal life.
  • at Perimeter Institute with Katherine Freese, Leo Kadanoff, Lawrence Krauss, Neil Turok, Sean M. Carroll, Gino Segrè, Andrew White, and David Tong.
  • Homepage of the International Academy Traunkirchen
  • Es stellt sich letztlich heraus, dass Information ein wesentlicher Grundbaustein der Welt ist, a German-language interview with Zeilinger by Andrea Naica-Loebell

January 06, 2023
anton, zeilinger, german, ˈanton, ˈtsaɪlɪŋɐ, born, 1945, austrian, quantum, physicist, nobel, laureate, physics, 2022, zeilinger, professor, physics, emeritus, university, vienna, senior, scientist, institute, quantum, optics, quantum, information, austrian, a. Anton Zeilinger German ˈanton ˈtsaɪlɪŋɐ born 20 May 1945 is an Austrian quantum physicist and Nobel laureate in physics of 2022 8 Zeilinger is professor of physics emeritus at the University of Vienna and senior scientist at the Institute for Quantum Optics and Quantum Information of the Austrian Academy of Sciences 9 Most of his research concerns the fundamental aspects and applications of quantum entanglement Anton ZeilingerBorn 1945 05 20 20 May 1945 age 77 Ried im Innkreis AustriaAlma materUniversity of Vienna UG PhD TU Wien Habilitation Known forQuantum teleportationBell test experimentsElitzur Vaidman bomb tester experimentGreenberger Horne Zeilinger stateGHZ experimentSuperdense codingAwardsKlopsteg Memorial Award 2004 Isaac Newton Medal 2007 Wolf Prize in Physics 2010 Nobel Prize in Physics 2022 1 Scientific careerFieldsPhysics Quantum mechanicsInstitutionsUniversity of ViennaUniversity of InnsbruckTechnical University of MunichTU WienMassachusetts Institute of TechnologyCollege de FranceMerton College OxfordThesisNeutron depolarization measurements on a Dy single crystal 1972 Doctoral advisorHelmut RauchDoctoral studentsStefanie Barz 2 3 Pan Jianwei 4 Thomas Jennewein 5 Gregor Weihs de 6 7 In 2007 Zeilinger received the first Inaugural Isaac Newton Medal of the Institute of Physics London for his pioneering conceptual and experimental contributions to the foundations of quantum physics which have become the cornerstone for the rapidly evolving field of quantum information 10 9 In October 2022 he received the Nobel Prize in Physics jointly with Alain Aspect and John Clauser for their outstanding work involving experiments with entangled photons establishing the violation of Bell inequalities and pioneering quantum information science 11 Contents 1 Early life and education 2 Career 3 Research 3 1 Quantum teleportation 3 2 Entanglement swapping teleportation of entanglement 3 3 Entanglement beyond two qubits GHZ states and their realizations 3 4 Quantum communication quantum cryptography quantum computation 3 5 Further novel entangled states 3 6 Macroscopic quantum superposition 3 7 Further fundamental tests 3 8 Neutron interferometry 4 Works 5 Honours and awards 5 1 International prizes and awards 5 2 Austrian prizes and awards 5 3 Memberships 5 4 Further distinctions 5 5 Distinguished lectureships 6 In popular culture 7 References 8 External linksEarly life and education EditAnton Zeilinger was born in 1945 in Ried im Innkreis Upper Austria Austria He studied physics at the University of Vienna from 1963 to 1971 12 He received a doctorate from the University of Vienna in 1971 with a thesis on Neutron depolarization measurements on a Dy single crystal under Helmut Rauch He qualified as a university lecturer habilitation at the Vienna University of Technology in 1979 13 14 Career EditIn the 1970s Zeilinger worked at the Vienna Atominstitut as a research assistant and associate researcher at the Massachusetts Institute of Technology Neutron Diffraction Laboratory until 1979 when he accepted the position of assistant professor at the same Atominstitut That year he qualified as a university professor at the Vienna University of Technology 12 In 1981 Zeilinger returned to MIT in 1981 as an associate professor on the physics faculty until 1983 Between 1980 and 1990 he worked as a professor at the Vienna University of Technology the Technical University of Munich the University of Innsbruck and the University of Vienna He was also between 2004 and 2013 the scientific director of the Institute for Quantum Optics and Quantum Information in Vienna between 2004 and 2013 12 Zeilinger became professor emeritus at the University of Vienna in 2013 12 He was president of the Austrian Academy of Sciences from 2013 till 2022 15 Since 2006 Zeilinger is the vice chairman of the board of trustees of the Institute of Science and Technology Austria an ambitious project initiated by Zeilinger s proposal In 2009 he founded the International Academy Traunkirchen 16 which is dedicated to the support of gifted students in science and technology He is a fan of the Hitchhiker s Guide To The Galaxy by Douglas Adams going so far as to name his sailboat 42 17 Research EditQuantum teleportation Edit Main article Quantum teleportation Most widely known is his first realization of quantum teleportation of an independent qubit 18 He later expanded this work to developing a source for freely propagating teleported qubits 19 and quantum teleportation over 144 kilometers between two Canary Islands 20 Quantum teleportation is an essential concept in many quantum information protocols Besides its role for the transfer of quantum information it is also considered as an important possible mechanism for building gates within quantum computers 21 Entanglement swapping teleportation of entanglement Edit Main article Entanglement swapping Entanglement swapping is the teleportation of an entangled state After its proposal 22 entanglement swapping has first been realized experimentally by Zeilinger s group in 1998 23 It was then applied to carry out a delayed choice entanglement swapping test 24 Entanglement beyond two qubits GHZ states and their realizations Edit Anton Zeilinger holding a sculpture by Julian Voss Andreae photo by J Godany Anton Zeilinger contributed decisively to the opening up of the field of multi particle entanglement 25 In 1990 he was the first with Daniel Greenberger and Michael Horne to work on entanglement of more than two qubits 26 The resulting GHZ theorem see Greenberger Horne Zeilinger state is fundamental for quantum physics as it provides the most succinct contradiction between local realism and the predictions of quantum mechanics 27 GHZ states were the first instances of multi particle entanglement ever investigated 28 Finally in 1999 he succeeded in providing the first experimental evidence of entanglement beyond two particles 29 and also the first test of quantum nonlocality for GHZ states 30 Quantum communication quantum cryptography quantum computation Edit In 1998 published in 2000 his group was the first to implement quantum cryptography with entangled photons 31 He then also applied quantum entanglement to optical quantum computation where in 2005 32 he performed the first implementation of one way quantum computation This is a protocol based on quantum measurement as proposed by Knill Laflamme and Milburn 33 The experiments of Zeilinger and his group on the distribution of entanglement over large distances began with both free space and fiber based quantum communication and teleportation between laboratories located on the different sides of the river Danube 34 This was then extended to larger distances across the city of Vienna 35 and over 144 km between two Canary Islands resulting in a successful demonstration that quantum communication with satellites is feasible His dream is to put sources of entangled light onto a satellite in orbit 17 A first step was achieved during an experiment at the Italian Matera Laser Ranging Observatory it 36 Further novel entangled states Edit With his group Anton Zeilinger made many contributions to the realization of novel entangled states The source for polarization entangled photon pairs developed with Paul Kwiat when he was a PostDoc in Zeilinger s group 37 became a workhorse in many laboratories worldwide The first demonstration of entanglement of orbital angular momentum of photons opened up a new burgeoning field of research in many laboratories 38 Macroscopic quantum superposition Edit Zeilinger is also interested to extend quantum mechanics into the macroscopic domain In the early 1990s he started experiments in the field of atom optics He developed a number of ways to coherently manipulate atomic beams many of which like the coherent energy shift of an atomic De Broglie wave upon diffraction at a time modulated light wave have become cornerstones of today s ultracold atom experiments In 1999 Zeilinger abandoned atom optics for experiments with very complex and massive macro molecules fullerenes The successful demonstration of quantum interference for these C60 and C70 molecules 39 in 1999 opened up a very active field of research In 2005 Zeilinger with his group again started a new field the quantum physics of mechanical cantilevers The group was the first in the year 2006 along with work from Heidmann in Paris and Kippenberg in Garching to demonstrate experimentally the self cooling of a micro mirror by radiation pressure that is without feedback 40 Using orbital angular momentum states he was able to demonstrate entanglement of angular momentum up to 300 ħ 41 Further fundamental tests Edit Zeilinger s program of fundamental tests of quantum mechanics is aimed at implementing experimental realizations of many non classical features of quantum physics for individual systems In 1998 42 he provided the final test of Bell s inequality closing the communication loophole by using superfast random number generators His group also realized the first Bell inequality experiment implementing the freedom of choice condition 43 and provided the first realization of a Bell test without the fair sampling assumption for photons 44 Among the further fundamental tests he performed the most notable one is his test of a large class of nonlocal realistic theories proposed by Leggett 45 The group of theories excluded by that experiment can be classified as those which allow reasonable subdivision of ensembles into sub ensembles It goes significantly beyond Bell s theorem While Bell showed that a theory which is both local and realistic is at variance with quantum mechanics Leggett considered nonlocal realistic theories where the individual photons are assumed to carry polarization The resulting Leggett inequality was shown to be violated in the experiments of the Zeilinger group 46 In an analogous way his group showed that even quantum systems where entanglement is not possible exhibit non classical features which cannot be explained by underlying non contextual probability distributions 47 Neutron interferometry Edit Anton Zeilinger s earliest work is perhaps his least known His work on neutron interferometry has provided an important foundation for his later research achievements As a member of the group of his thesis supervisor Helmut Rauch at the Technical University of Vienna Zeilinger participated in a number of neutron interferometry experiments at the Institut Laue Langevin ILL in Grenoble His very first such experiment confirmed a fundamental prediction of quantum mechanics the sign change of a spinor phase upon rotation 48 This was followed by the first experimental realization of coherent spin superposition of matter waves He continued his work in neutron interferometry at MIT with C G Shull Nobel Laureate focusing specifically on dynamical diffraction effects of neutrons in perfect crystals which are due to multi wave coherent superposition After his return to Europe he built up an interferometer for very cold neutrons which preceded later similar experiments with atoms The fundamental experiments there included a most precise test of the linearity of quantum mechanics Zeilinger built a beautiful double slit diffraction experiment 49 on the S18 instrument at the Institut Laue Langevin which later on gained in accuracy and could act with only one neutron at a time in the apparatus 50 Works EditZeilinger has written more than 550 scientific articles of which 500 are peer reviewed and 16 are considered highly cited papers 51 Honours and awards EditInternational prizes and awards Edit Nobel Prize in Physics 2022 with John Clauser Alain Aspect 11 Micius Quantum Prize Micius Quantum Foundation 2019 with Stephen Wiesner Charles H Bennett Gilles Brassard Artur Ekert and Pan Jianwei 52 Cozzarelli Prize in Physical and Mathematical Sciences PNAS and National Academy of Sciences 2018 with Alexey A Melnikov Hendrik Poulsen Nautrup Mario Krenn Vedran Dunjko Markus Tiersch and Hans Briegel 53 John Stewart Bell Prize for Research on Fundamental Issues in Quantum Mechanics and their Applications University of Toronto 2017 with Ronald Hanson and Sae Woo Nam 54 Silver medal of the Senate of the Czech Republic 2017 55 Willis E Lamb Award Physics of Quantum Electronics PQE conference 2016 with Robin Cote Maciej Lewenstein and John Madey 56 Academy Medal of the Heidelberg Academy of Sciences and Humanities 2015 51 Urania Medal Urania Berlin 2013 57 Finalist World Technology Award for Communications Technology World Technology Network 2012 51 Ben Gurion Medal Ben Gurion University of the Negev 2010 51 Wolf Prize in Physics Wolf Foundation 2010 with Alain Aspect and John Clauser 58 Grand Merit Cross with Star of the Order of Merit of the Federal Republic of Germany 2009 59 ERC Advanced Grant European Research Council 2008 60 International Quantum Communication Award Tamagawa University 2008 with Jeffrey Shapiro Akira Furusawa 61 Inaugural Isaac Newton Medal Institute of Physics 2008 62 Quantum Electronics Prize European Physical Society 2007 63 King Faisal International Prize in physics King Faisal Foundation 2005 64 Descartes Prize European Union as member of the IST QuComm project collaboration 2004 65 Lorenz Oken Medal Wikidata Society of German Scientists and Physicians 2004 66 Klopsteg Memorial Award American Association of Physics Teachers 2004 67 Sartorius Prize Gottingen Academy of Sciences 2003 51 Order Pour le Merite for Arts and Sciences 2000 68 Senior Humboldt Fellow Prize Alexander von Humboldt Foundation 2000 51 European Optics Prize European Optical Society 1996 69 European Lecturer European Physical Society 1996 51 Prix Vinci d Excellence 1995 51 Austrian prizes and awards Edit Grand Decoration of Honour in Gold for Services to Vienna City of Vienna 2018 51 Grand Decoration of Honour for Services to the Republic of Austria 2015 51 Tiroler Adler Orden State Government of Tyrol 2013 51 Grand Gold Decoration City of Vienna 2006 51 Wilhelm Exner Medal Austrian Trade Association 2005 70 Johannes Kepler Prize State Government of Upper Austria 2002 51 Austrian Decoration for Science and Art Republic of Austria 2001 71 Visionary of the Year in Science 2001 51 Science Award of the City of Vienna 2000 51 Kardinal Innitzer Wurdigungspreis Roman Catholic Archdiocese of Vienna 1997 51 Austrian Scientist of the Year 1996 51 Junior Prize of the Theodor Korner Foundation 1980 51 Prize for Junior Scientists Kardinal Innitzer Foundation 1979 51 Prize of the City of Vienna for the Encouragement of Young Scientists 1975 51 Memberships Edit Foreign Member of the National Academy of Sciences of Ukraine 51 Foreign Member of the U S National Academy of Sciences 72 Foreign Honorary Member of the Romanian Academy of Sciences 51 Foreign Member of the Chinese Academy of Sciences 51 Foreign Member of the Russian Academy of Sciences 51 Foreign Member of the National Academy of Sciences of Belarus 73 51 Fellow of the American Physical Society the American Association for the Advancement of Science AAAS 1 the World Academy of Sciences TWAS and Optica Socio Corrispondente Straniero Accademia Galileiana 51 Member of the German Academy of Sciences Leopoldina 51 Berlin Brandenburg 51 Austrian 51 Slovak Academies of Sciences 51 the Academia Scientiarum et Artium Europaea 51 the Serbian Academy of Sciences and Arts 51 the Academia Europaea 51 and the French Academie des Sciences 51 Further distinctions Edit Honorary doctorates from the Humboldt University of Berlin 2005 the University of Gdansk 2006 the National Academy of Sciences of Ukraine 2015 Technion 2020 the Okinawa Institute of Science and Technology Graduate University 2022 and the Israel Institute of Technology 2022 51 In 2009 Anton Zeilinger was among the 10 people who could change the world elected by the British newspaper New Statesman 74 75 Asteroid 48681 Zeilinger 2005 76 Honorary professorships from the University of Science and Technology of China 1996 Nanjing University 2016 and Xi an Jiaotong University 2019 51 Distinguished lectureships Edit S N Bose Memorial Lecture S N Bose National Centre for Basic Sciences India 2021 77 Golden Webinar Pontifical Catholic University of Chile 2021 51 David M Lee Historical Lecture in Physics Harvard University US 2019 78 Bethe Lectures Cornell University US 2016 51 Zhongshan Lecture Nanjing University China 2016 51 Robert Hofstadter Memorial Lecture Stanford University US 2015 79 Montroll Memorial Lecture University of Rochester US 2014 51 Herzberg Memorial Lecture Canadian Association of Physicists Canada 2012 51 Racah Lectures in Physics Hebrew University Israel 2012 51 Cherwell Simon Memorial Lectures Oxford University UK 2012 51 Festkolloquium 500 WE Heraeus Seminar Heraeus Stiftung Bad Honnef Germany 2012 51 Vice Chancellor s Open Lecture Series University of Cape Town South Africa 2011 80 Mark W Zemansky Lecture City College of New York US 81 2011 Van Vleck Lecture University of Minnesota US 2011 51 Ockham Lecture Merton College Oxford University UK 2010 82 Dvorak Memorial Lecture University of Prague Czech Republic 2010 51 Celsius Lecture Uppsala University Sweden 2010 83 Carl Friedrich von Weizsacker Lectures University of Hamburg Germany 2009 51 Festvortrag 150th birthday of Max Planck Max Planck Society German Physical Society Berlin Brandenburg Academy of Sciences Humboldt University Berlin Germany 2009 51 Inaugural Kavli Colloquium Kavli Institute of Nanoscience Delft University of Technology Netherlands 2009 84 Newton Prize Lecture Institute of Physics UK 2008 85 Asher Perez Memorial Lecture Technion Israel 2008 51 Wolfgang Paul Lecture Bonn University Germany 2007 86 Seventh Johannes Gutenberg Endowed Professorship Johannes Gutenberg University Mainz Germany 2006 87 Colloquium Ehrenfestii Leiden University Netherlands 2004 88 Angstrom Lecture Uppsala University Sweden 2003 51 Amos de Shalit Memorial Lecture Weizmann Institute Israel 2003 51 Solly Cohen and Shimon Ofer Memorial Lecture Racah Institute of Physics Hebrew University of Jerusalem Israel 2003 51 Schrodinger Lecture Imperial College UK 2003 89 Niels Bohr Lecture Copenhagen University Denmark 2003 51 Schrodinger Lecture Trinity College Ireland 1999 90 H L Welsh Lecture in Physics University of Toronto Canada 1997 91 Colloquium Ehrenfestii Leiden University Netherlands 1996 88 Sir Thomas Lyle Lecture University of Melbourne Australia 1984 51 In popular culture EditZeilinger has been interviewed by Morgan Freeman in season 2 of Through the Wormhole 92 References Edit a b Korte Andrea 4 October 2022 AAAS Fellow Anton Zeilinger Is a Winner of the Nobel Prize in Physics American Association for the Advancement of Science Retrieved 29 October 2022 Barz Stefanie 15 October 2012 Photonic Quantum Computing Archived from the original on 4 October 2022 Retrieved 15 October 2021 via othes univie ac at Prof Dr Stefanie Barz Institute for Functional Matter and Quantum Technologies University of Stuttgart Archived from the original on 24 October 2021 Retrieved 15 October 2021 Prof Jian Wei Pan Archived from the original on 4 March 2016 Retrieved 20 November 2015 Thomas Jennewein 11 June 2002 Quantum Communication and Teleportation Experiments using Entangled Photon Pairs PDF Archived from the original PDF on 20 November 2015 Retrieved 20 November 2015 Gregor Weihs CV Universitat Innsbruck Retrieved 6 October 2022 Weihs G Jennewein T Simon C Weinfurter H Zeilinger A 7 December 1998 Violation of Bell s Inequality under Strict Einstein Locality Conditions Physical Review Letters 81 23 5039 5043 arXiv quant ph 9810080 Bibcode 1998PhRvL 81 5039W doi 10 1103 physrevlett 81 5039 S2CID 29855302 The Nobel Prize in Physics 2022 NobelPrize org Retrieved 4 October 2022 a b Anton Zeilinger www nasonline org Retrieved 4 October 2022 Anton Zeilinger scoops first Isaac Newton medal Physics World 3 October 2007 Retrieved 4 October 2022 a b Ahlander Johan Burger Ludwig Pollard Niklas 4 October 2022 Nobel physics prize goes to sleuths of spooky quantum science Reuters Retrieved 4 October 2022 a b c d Anton Zeilinger Encyclopedia Britannica Curriculum Vitae Anton Zeilinger PDF Austrian Academy of Sciences 30 September 2022 Archived PDF from the original on 30 August 2022 Retrieved 4 October 2022 Neutron depolarization measurements on a Dy single crystal PDF Austrian Academy of Sciences 1972 Archived PDF from the original on 8 January 2022 Retrieved 4 October 2022 Anton Zeilinger new President of the Austrian Academy of Sciences Vienna Center for Quantum Science and Technology 16 March 2013 Archived from the original on 13 October 2014 Retrieved 23 September 2013 International Academy Traunkirchen Archived from the original on 19 December 2014 Retrieved 15 October 2021 a b Minkel JR 1 August 2007 The Gedanken Experimenter Scientific American 297 2 94 96 Bibcode 2007SciAm 297b 94M doi 10 1038 scientificamerican0807 94 PMID 17894178 D Bouwmeester J W Pan K Mattle M Eibl H Weinfurter amp A Zeilinger Experimental Quantum Teleportation Nature 390 575 579 1997 Abstract Archived 29 October 2009 at the Wayback Machine Selected for the Nature Looking Back category of classic papers from Nature s archive one of ISI s Highly Cited Papers J W Pan S Gasparoni M Aspelmeyer T Jennewein amp A Zeilinger Experimental Realization of Freely Propagating Teleported Qubits Nature 421 721 725 2003 Abstract Archived 15 November 2013 at the Wayback Machine Selected by the International Institute of Physics as one of the top ten Physics Highlights in 2003 X S Ma T Herbst T Scheidl D Wang S Kropatschek W Naylor B Wittmann A Mech J Kofler E Anisimova V Makarov T Jennewein R Ursin amp A Zeilinger Quantum teleportation over 143 kilometres using active feed forward Nature 489 269 273 2012 Abstract Archived 4 October 2022 at the Wayback Machine Ranked as a highly cited paper by Thomson Reuters Web of Science placing it in the 1 of the academic field of physics based on a highly cited threshold for the field and publication year Shelton Jim 5 September 2018 Yale researchers teleport a quantum gate YaleNews Retrieved 4 October 2022 M Zukowski A Zeilinger M A Horne amp A K Ekert Event Ready Detectors Bell Experiment via Entanglement Swapping Phys Rev Lett 71 4287 90 1993 Abstract J W Pan D Bouwmeester H Weinfurter amp A Zeilinger Experimental entanglement swapping Entangling photons that never interacted Phys Rev Lett 80 18 3891 3894 1998 Abstract X S Ma S Zotter J Kofler R Ursin T Jennewein C Brukner amp A Zeilinger Experimental delayed choice entanglement swapping Nature Physics 8 479 484 2012 Abstract Archived 4 October 2022 at the Wayback Machine D Greenberger M Horne A Zeilinger 1 August 1993 Multiparticle Interferometry and the Superposition Principle Physics Today 46 8 22 Bibcode 1993PhT 46h 22G doi 10 1063 1 881360 Archived from the original on 23 April 2021 Retrieved 21 April 2021 D M Greenberger M A Horne A Shimony amp A Zeilinger Bell s Theorem without Inequalities American Journal of Physics 58 1131 1143 1990 This paper has become a citation classic Daniel M Greenberger Michael A Horne Anton Zeilinger 1989 Going Beyond Bell s Theorem In Kafatos Menos ed Bell s Theorem Quantum Theory and Conceptions of the Universe 1 ed Heidelberg Springer pp 69 72 arXiv 0712 0921 ISBN 978 94 017 0849 4 Archived from the original on 24 February 2021 Retrieved 22 April 2021 Jian Wei Pan Zeng Bing Chen Chao Yang Lu Harald Weinfurter Anton Zeilinger Marek Zukowski 11 May 2012 Multiphoton entanglement and interferometry Rev Mod Phys 84 2 777 arXiv 0805 2853 Bibcode 2012RvMP 84 777P doi 10 1103 RevModPhys 84 777 S2CID 119193263 Archived from the original on 25 May 2021 Retrieved 21 April 2021 Ranked as a highly cited paper by Thomson Reuters Web of Science placing it in the 1 of the academic field of physics based on a highly cited threshold for the field and publication year D Bouwmeester J W Pan M Daniell H Weinfurter amp A Zeilinger Observation of three photon Greenberger Horne Zeilinger entanglement Phys Rev Lett 82 7 1345 1349 1999 Abstract Archived 4 October 2022 at the Wayback Machine J W Pan D Bouwmeester M Daniell H Weinfurter amp A Zeilinger Experimental test of quantum nonlocality in three photon Greenberger Horne Zeilinger entanglement Nature 403 515 519 2000 Abstract Archived 15 November 2013 at the Wayback Machine T Jennewein C Simon G Weihs H Weinfurter amp A Zeilinger Quantum Cryptography with Entangled Photons Phys Rev Lett 84 4729 4732 2000 Abstract This paper was featured in several popular science magazines both online and in print P Walther K J Resch T Rudolph E Schenck H Weinfurter V Vedral M Aspelmeyer amp A Zeilinger Experimental one way quantum computing Nature 434 7030 169 176 2005 Abstract Archived 4 October 2022 at the Wayback Machine E Knill R Laflamme amp G J Milburn A scheme for efficient quantum computation with linear optics Nature 409 46 52 2001 Abstract Archived 14 November 2013 at the Wayback Machine Rupert Ursin Thomas Jennewein Markus Aspelmeyer Rainer Kaltenbaek Michael Lindenthal Philip Walther Anton Zeilinger 18 August 2004 Quantum teleportation across the Danube Nature 430 7002 849 doi 10 1038 430849a PMID 15318210 S2CID 4426035 Archived from the original on 4 October 2022 Retrieved 21 April 2021 Markus Aspelmeyer Hannes R Bohm Tsewang Gyatso Thomas Jennewein Rainer Kaltenbaek Michael Lindenthal Gabriel Molina Terriza Andreas Poppe Kevin Resch Michael Taraba Rupert Ursin Philip Walther Anton Zeilinger 1 August 2003 Long Distance Free Space Distribution of Quantum Entanglement Science 301 5633 621 623 Bibcode 2003Sci 301 621A doi 10 1126 science 1085593 PMID 12817085 S2CID 40583982 P Villoresi T Jennewein F Tamburini M Aspelmeyer C Bonato R Ursin C Pernechele V Luceri G Bianco A Zeilinger amp C Barbieri Experimental verification of the feasibility of a quantum channel between Space and Earth Archived 22 November 2017 at the Wayback Machine New Journal of Physics 10 033038 2008 Highlight of New J Phys for 2008 P G Kwiat K Mattle H Weinfurter A Zeilinger A V Sergienko amp Y H Shih New High Intensity Source of Polarization Entangled Photon Pairs Phys Rev Lett 75 24 4337 41 1995 Abstract A Mair A Vaziri G Weihs amp A Zeilinger Entanglement of the orbital angular momentum states of photons Nature 412 6844 313 316 2001 Abstract Archived 3 May 2010 at the Wayback Machine M Arndt O Nairz J Voss Andreae C Keller G van der Zouw amp A Zeilinger Wave particle duality of C60 molecules Nature 401 680 682 1999 Abstract Archived 21 September 2012 at the Wayback Machine Selected by the American Physical Society as a physics highlight of 1999 S Gigan H R Bohm M Paternostro F Blaser G Langer J B Hertzberg K Schwab D Bauerle M Aspelmeyer amp A Zeilinger Self cooling of a micro mirror by radiation pressure Nature 444 67 70 2006 Abstract Archived 1 August 2013 at the Wayback Machine Selected as Highlight of the recent literature by Science January 2007 Ranked as a highly cited paper by Thomson Reuters Web of Science placing it in the 1 of the academic field of physics based on a highly cited threshold for the field and publication year R Fickler R Lapkiewicz W N Plick M Krenn C Schaff S Ramelow amp A Zeilinger Quantum entanglement of high angular momenta Science 338 640 643 2012 Abstract Archived 29 December 2021 at the Wayback Machine Selected as one of the top 10 breakthroughs of the year 2012 by IOP s Physics World Also featured in DPG s Physik Journal Ranked as a highly cited paper by Thomson Reuters Web of Science placing it in the 1 of the academic field of physics based on a highly cited threshold for the field and publication year G Weihs T Jennewein C Simon H Weinfurter amp A Zeilinger Violation of Bell s inequality under strict Einstein locality conditions Phys Rev Lett 81 23 5039 5043 1998 Abstract This paper is a classic It is cited among others in the German Wikipedia article on Bell s inequality and in several popular science books and science books for University students T Scheidl R Ursin J Kofler S Ramelow X Ma T Herbst L Ratschbacher A Fedrizzi N K Langford T Jennewein amp A Zeilinger Violation of local realism with freedom of choice PNAS 107 46 19709 19713 2010 Abstract M Giustina A Mech S Ramelow B Wittmann J Kofler J Beyer A Lita B Calkins T Gerrits S W Nam R Ursin A Zeilinger 2013 Bell violation using entangled photons without the fair sampling assumption Nature 497 7448 227 230 arXiv 1212 0533 Bibcode 2013Natur 497 227G doi 10 1038 nature12012 PMID 23584590 S2CID 18877065 Archived from the original on 4 October 2022 Retrieved 21 April 2021 Ranked as a highly cited paper by Thomson Reuters Web of Science placing it in the 1 of the academic field of physics based on a highly cited threshold for the field and publication year A J Leggett Nonlocal Hidden Variable Theories and Quantum Mechanics An Incompatibility Theorem Foundations of Physics 33 10 1469 1493 2003 doi 10 1023 A 1026096313729 Abstract Archived 4 October 2022 at the Wayback Machine S Groblacher T Paterek R Kaltenbaek C Brukner M Zukowski M Aspelmeyer amp A Zeilinger An experimental test of non local realism Nature 446 871 875 2007 Abstract Archived 15 April 2016 at the Wayback Machine R Lapkiewicz P Li C Schaff N K Langford S Ramelow M Wiesniak amp A Zeilinger Experimental non classicality of an indivisible quantum system Nature 474 490 493 2011 Abstract Archived 7 September 2011 at the Wayback Machine H Rauch A Zeilinger G Badurek A Wilfing W Bauspiess U Bonse 20 October 1975 Verification of coherent spinor rotation of fermions Physics Letters A 54 6 425 427 Bibcode 1975PhLA 54 425R doi 10 1016 0375 9601 75 90798 7 Archived from the original on 4 October 2022 Retrieved 21 April 2021 Zeilinger Anton Gahler Roland Shull C G Treimer Wolfgang Mampe Walter 1 October 1988 Single and double slit diffraction of neutrons Reviews of Modern Physics 60 4 1067 1073 Bibcode 1988RvMP 60 1067Z doi 10 1103 RevModPhys 60 1067 ISSN 0034 6861 Hasegawa Yuji Loidl Rudolf Badurek Gerald Baron Matthias Rauch Helmut September 2003 Violation of a Bell like inequality in single neutron interferometry Nature 425 6953 45 48 Bibcode 2003Natur 425 45H doi 10 1038 nature01881 ISSN 1476 4687 PMID 12955134 S2CID 39583445 a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb Curriculum Vitae Anton Zeilinger PDF Austrian Academy of Sciences Retrieved 11 October 2022 2019 Laureates The Micius Quantum Prize Retrieved 4 October 2022 Null 6 May 2019 2018 Cozzarelli Prize recipients PNAS Retrieved 4 October 2022 Ronald Hanson Sae Woo Nam and Anton Zeilinger awarded the Fifth Bell Prize University of Toronto Retrieved 4 October 2022 Stribrne medaile predsedy Senatu Silver medals of the President of the Senate Senat PCR in Czech 19 September 2022 Archived from the original on 19 September 2022 Retrieved 4 October 2022 The Willis E Lamb Award for Laser Science and Quantum Optics Lamb Award Retrieved 4 October 2022 Verleihung der Urania Medaille 2013 Urania in German 21 October 2013 Retrieved 5 October 2022 Anton Zeilinger Wolf Foundation 11 December 2018 Retrieved 5 October 2022 Anton Zeilinger honoured with the Order of Merit of the Federal Republic of Germany Institute for Quantum Optics and Quantum Information Vienna of the Austrian Academy of Sciences 1 July 2009 Retrieved 5 October 2022 Anton Zeilinger was bestowed with the Grosses Bundesverdienstkreuz mit Stern Two grantees win 2022 Nobel Prize in Physics European Research Council Retrieved 6 October 2022 Conference on Quantum Communication Measurement and Computing QCM amp C Tamagawa University Retrieved 6 October 2022 Isaac Newton Medal and Prize recipients IOP Retrieved 6 October 2022 QEOD Prizes EPS Quantum Electronics Prizes European Physical Society Retrieved 6 October 2022 All time Winners KFIP Archived from the original on 11 August 2013 Retrieved 5 October 2022 IST QuComm wins the EU Descartes price 2004 KTH Royal Institute of Technology Retrieved 5 October 2022 Personlichkeiten GDNA Gesellschaft deutscher Naturforscher und Arzte in German Preistrager Der Lorenz oken medaille Retrieved 6 October 2022 Klopsteg Memorial Lecture American Association of Physics Teachers Retrieved 7 October 2022 Verzeichnis der Mitglieder PDF Pour le merite fur Wissenschaften und Kunste 25 August 2022 p 48 EOS Prize European Optical Society Retrieved 7 October 2022 Editor OGV 2015 Wilhelm Exner Medal Austrian Trade Association OGV Austria Reply to a parliamentary question PDF in German p 1436 Archived PDF from the original on 1 May 2020 Retrieved 25 November 2012 Member Directory Anton Zeilinger Honorary and foreign members NAS of Belarus Retrieved 5 October 2022 Ten people who could change the world New Statesman 8 January 2009 Archived from the original on 1 January 2011 Retrieved 30 May 2011 McFadden Johnjoe 17 October 2005 Anton Zeilinger New Statesman Archived from the original on 7 June 2011 Retrieved 28 October 2012 Johnjoe McFadden on the physicist who could just make the dream of teleportation possible 48681 Zeilinger 1996 BZ Minor Planet Center Celebration of 128th Birth Anniversary of Satyendranath Bose amp 25th S N Bose Memorial Lecture by Prof Anton Zeilinger Archived from the original on 20 April 2021 Retrieved 20 April 2021 Lee Historical Lecture Anton Zeilinger Harvard University Archived from the original on 20 April 2021 Retrieved 20 April 2021 Robert Hofstadter Memorial lecture series Stanford University Physics Department Retrieved 20 April 2021 Vice Chancellor s Open Lecture Series University of Cape Town News Archived from the original on 20 April 2021 Retrieved 20 April 2021 Special Events and Colloquia The City College of New York 8 October 2019 Archived from the original on 20 April 2021 Retrieved 20 April 2021 The Ockham Lectures Merton College Archived from the original on 13 April 2021 Retrieved 20 April 2021 Celsius Linnaeus Lectures on unknown worlds Uppsala University 18 February 2010 Archived from the original on 20 April 2021 Retrieved 20 April 2021 Kavli Colloquia Kavli Institute of Nanoscience Archived from the original on 19 April 2021 Retrieved 20 April 2021 AT 2 Newton Lecture 2008 Quantum Information Video Institute of Physics 10 August 2012 Archived from the original on 20 April 2021 Retrieved 20 April 2021 2007 Anton Zeilinger Wolfgang Paul Lecture in German Bonn University Archived from the original on 20 April 2021 Retrieved 20 April 2021 Stiftungsprofessor 2006 Anton Zeilinger Johannes Gutenberg Stiftungsprofessur in German Johannes Gutenberg Universitat Mainz Archived from the original on 20 April 2021 Retrieved 20 April 2021 a b Colloquium Ehrenfestii Leiden Institute of Physics Archived from the original on 7 May 2021 Retrieved 21 April 2021 The Schrodinger Lecture Imperial College London Archived from the original on 18 April 2021 Retrieved 21 April 2021 The Schrodinger Lecture Series Trinity College Dublin Archived from the original on 21 April 2021 Retrieved 21 April 2021 H L Welsh Distinguished Lecturers in Physics 1975 2013 University of Toronto Archived from the original on 21 April 2021 Retrieved 21 April 2021 How Does the Universe Work External links Edit Scholia has a profile for Anton Zeilinger Q78610 Wikimedia Commons has media related to Anton Zeilinger Wikiquote has quotations related to Anton Zeilinger Anton Zeilinger on Nobelprize org Anton Zeilinger publications indexed by Google Scholar Curriculum Vitae of Anton Zeilinger Prof Dr Anton Zeilinger Vienna Center for Quantum Science and Technology Archived from the original on 17 April 2016 Retrieved 23 June 2016 Quantum Teleportation by Zeilinger 2003 update of 2000 Scientific American article Hans Christian von Baeyer 17 February 2001 In the beginning was the bit New Scientist 169 2278 26 30 Spooky action and beyond an interview with Anton Zeilinger at signandsight com The lecture delivered by Professor Anton Zeilinger as the inaugural recipient of the Isaac Newton Medal Institute of Physics 17 June 2008 1 68 min 25 sec Note On the page linked a second video is accommodated which shows Professor Zeilinger speaking amongst others about his personal life Anton Zeilinger on the opening panel discussion at the Quantum to Cosmos festival at Perimeter Institute with Katherine Freese Leo Kadanoff Lawrence Krauss Neil Turok Sean M Carroll Gino Segre Andrew White and David Tong Homepage of the International Academy Traunkirchen Es stellt sich letztlich heraus dass Information ein wesentlicher Grundbaustein der Welt ist a German language interview with Zeilinger by Andrea Naica Loebell Retrieved from https en wikipedia org w index php title Anton Zeilinger amp oldid 1127531677, wikipedia, wiki, book, books, library,

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