21. Pictures Gallery Of The Nobel Prize Winners In Physics Translate this page The nobel Prize in Physics. 1998. Robert B. Laughlin Horst L. Störmer Daniel C.Tsui 1981. Nicolaas Bloembergen arthur L. schawlow Kai M. Siegbahn 1980. http://www.th.physik.uni-frankfurt.de/~jr/physpicnobel.html

The Nobel Prize in Physics Robert B. Laughlin Daniel C. Tsui Steven Chu ... Hannes Olof Gosta Alfven Louis Eugene Felix Neel Murray Gell-Mann Luis Walter Alvarez Hans Albrecht Bethe Alfred Kastler Richard Phillips Feynman Julian Seymour Schwinger Sin-Itiro Tomonaga Nikolai Gennadievich Basov Alexander Mikhailovich Prokhorov Charles Hard Townes Johannes Hans Daniel Jensen Maria Goeppert-Mayer ... Sir Edward Victor Appleton Percy Williams Bridgman Wolfgang Ernst Pauli Isidor Isaac Rabi Otto Stern None None None Ernest Orlando Lawrence Enrico Fermi Clinton Joseph Davisson Sir George Paget Thomson ... Sir James Chadwick None Paul Adrien Maurice Dirac Werner Karl Heisenberg None Sir Chandrasekhara Venkata Raman Prince Louis-Victor Pierre Raymond de Broglie Sir Owen Willans Richardson Arthur Holly Compton Charles Thomson Rees Wilson Jean Baptiste Perrin James Franck Gustav Ludwig Hertz Karl Manne Georg Siegbahn Robert Andrews Millikan ... Albert Einstein Charles Eduard Guillaume Johannes Stark Max Karl Ernst Ludwig Planck Charles Glover Barkla None Sir William Henry Bragg Sir William Lawrence Bragg Max Theodor Felix von Laue Heike Kamerlingh Onnes ... Guglielmo Marconi Gabriel Jonas Lippmann Albert Abraham Michelson Sir Joseph John Thomson Philipp Eduard Anton Lenard John William Strutt (Lord Rayleigh) ... Wilhelm Conrad Roentgen Donated by Christopher Walker, University of Ulster

22. Clausen, B. L. --- On Arthur L. Schawlow Professor arthur L. schawlow (1921 ). schawlow received his Ph.D. in physics atthe University of In 1981 he shared the nobel Prize for Physics with Nicolaas http://www.grisda.org/bclausen/papers/co40.htm

Men of Science and of Faith in God Professor Arthur L. Schawlow (1921- ) by Ben Clausen Translated for Ciencia de los Orígenes , Enero-Agosto 1995, Ns. 40,41, p.13 Prof. Schawlow received his Ph.D. in physics at the University of Toronto in 1949. In 1981 he shared the Nobel Prize for Physics with Nicolaas Bloembergen and Kai Siegbahn "for their contribution to the development of laser spectroscopy". He is now a professor of Physics at Stanford University. In understanding the relation between science and faith, Prof. Schawlow believes that science can neither prove nor disprove religion, because religion is founded on faith. When confronted with the marvels of life and the universe, one asks why and not just how, and the only possible answers are religious. For him that means Protestant Christianity, to which he was introduced as a child and which has withstood the test of a lifetime. He believes that the context of religion is a great background for doing science. Psalm 19 says that "The heavens declare the glory of God and the firmament showeth his handiwork". Thus scientific research is a worshipful act, in that it reveals more of the wonders of God's creation. As for the origin of the universe and life, he believes that they should be pursued as vigorously as the scientists' abilities and interests can take them. From a religious point of view, we assume that God did it and hope to find out something about how he did it, but the answers will never be final and there will always be further surprises to come. Deeper questions will eventually have to be referred to religion.

23. HTML REDIRECT nobel Lecture Autobiography (in English) Biography (in German) Obituary from theBoston and schawlow, arthur L., USA, b. 1921, d. 1999, CA Stanford University http://www.slac.stanford.edu/library/nobel.html

Redirect Redirecting to http://www.slac.stanford.edu/library/nobel

24. Arthur L. Schawlow THE MARCONI FELLOWS. 1977 arthur L. schawlow, Stanford University visiblelight. Dr. schawlow won the nobel Prize in Physics in 1981. http://www.marconifoundation.org/pages/fellows/schawlow.htm

25. Nobel Prize In Physics Since 1901 W. Cronin; Bloembergen, Nicolaas; schawlow, arthur L.; Siegbahn, Kai M. 1982. http://www.planet101.com/nobel_physics_hist.htm

Nobel Prize in Physics since 1901 Year Winners Roentgen, Wilhelm Conrad Lorentz, Hendrik Antoon Zeeman, Pieter Becquerel, Antoine Henri; Curie, Marie; Curie, Pierre Rayleigh, Lord John William Strutt Lenard, Philipp Eduard Anton Thomson, Sir Joseph John Michelson, Albert Abraham Lippmann, Gabriel Braun, Carl Ferdinand Marconi, Guglielmo Van Der Waals, Johannes Diderik Wien, Wilhelm Dalen, Nils Gustaf Kamerlingh-Onnes, Heike Laue, Max Von Bragg, Sir William Henry; Bragg, Sir William Lawrence Barkla, Charles Glover Planck, Max Karl Ernst Ludwig Stark, Johannes Guillaume, Charles Edouard Einstein, Albert Bohr, Niels Millikan, Robert Andrews Siegbahn, Karl Manne Georg Franck, James; Hertz, Gustav Perrin, Jean Baptiste Compton, Arthur Holly; Wilson, Charles Thomson Rees Richardson, Sir Owen Willans De Broglie, Prince Louis-Victor Raman, Sir Chandrasekhara Venkata Heisenberg, Werner Dirac, Paul Adrien Maurice; Schroedinger, Erwin Chadwick, Sir James

26. The Nobel Prize For Physics (1901-1998) watch the nobel Foundation web site at http//www.nobel.se. electron spectroscopy1962 Nicolaas Bloembergen Laser spectroscopy arthur L. schawlow 1982 1972 http://math.ucr.edu/home/baez/physics/Administrivia/nobel.html

[Physics FAQ] Updated October 1998 by Nathan Urban. Updated 1997,96 by PEG. Updated 1994 by SIC. Original by Scott I. Chase. The Nobel Prize for Physics (1901-1998) The following is a complete listing of Nobel Prize awards, from the first award in 1901. Prizes were not awarded in every year. The date in brackets is the approximate date of the work. The description following the names is an abbreviation of the official citation. The Physics prize is announced near the beginning of October each year. One of the quickest ways to get the announcement is to watch the Nobel Foundation web site at http://www.nobel.se

27. Since 1901 The Nobel Prize Is Annually Awarded For Achievements 1996 David M. Lee. 1989 - Hans Dehmelt. 1981 - arthur L. schawlow, Kai M. Siegbahn,Nicolaas Bioembergen. The nobel Prize in Chemistry- Laureates. http://www.aro.army.mil/accomplish/nobel/nobelprize02.htm

Since 1901 the Nobel Prize is annually awarded for achievements in physics, chemistry, medicine, literature, and peace. On December 10th, the anniversary of Alfred Nobel's death, the Nobel prize is presented to laureates during a ceremony in Stockholm, Sweden. The Army Research Office sponsored the work of many Nobel laureates over the years and their research has dramatically impacted our national defense. Listed below are ARO sponsored Nobel laureates. The Nobel Prize in Physics - Laureates Eric A. Cornell, Wolfgang Ketterle, Carl E. Wieman Herbert J. Kroemer, Zhores I. Alferov Daniel Tsui David M. Lee ... Polykarp Kusch, Willis E. Lamb The Nobel Prize in Chemistry- Laureates Alan J. Heeger, Alan G. MacDiarmid Richard E. Smalley, Robert F. Curl George A. Olah Donald J. Cram ... Robert Burns Woodward

28. Nobel Prize Winners Support Basic Science Americans have been awarded more than onehalf of all nobel Prizes in Samuelson, Ph.D.,Charles H. Townes, Ph.D., Henry Taube, Ph.D., arthur L. schawlow, Ph.D http://www.sdsc.edu/SDSCwire/v2.13/nobelists.html

Nobel Prize Winners Seek Stronger Support for Basic Science The American Institute of Physics Bulletin of Science Policy News Number 101: June 26, 1996 The letter, dated June 19, follows: "Dear President Clinton and Members of Congress: "As men and women who have helped to shape the modern scientific age and who care deeply about the future of our nation, we urge you to reaffirm the fundamental role of the federal government in supporting basic scientific research. "Americans have been awarded more than one-half of all Nobel Prizes in physics, chemistry and medicine since 1945. This impressive success is no accident, but the result of a firm and consistent commitment by the federal government to basic science research at our universities. Our nation's policymakers and public have been prudent investors because their support has paid off in tremendous ways. "America's investment in research over the last fifty years has been a vital source of our economic and political strength around the world, as well as the quality of life Americans enjoy at home. The polio vaccine, computers, jet propulsion and disease resistant grains and vegetables are some of the thousands of advances pioneered at our universities that have had dramatic benefits for our health, economy, security and quality of life. "New and equally breathtaking advances may be just around the corner. Genetic research, for example, gives promise of better treatments for Alzheimer's, cancer and other diseases. Lighter and stronger composite materials may be developed with important applications in transportation, medicine and the military. Continuing support for university-based research will not only pave the way for these important breakthroughs, but will also train the next generation of pioneers and Nobelists.

29. Nobelists And Their Work present or former Columbia faculty members have won the nobel Prize for explain the big bang theory of the universe's origins; arthur L. schawlow in 1981 http://www.columbia.edu/cu/pr/special/nobelists.html

Office of Public Affairs Columbia University New York, N.Y. 10027 Tel: (212) 854-5573 Virgil Renzulli Associate Vice President January 2000 Columbia Nobelists and Their Work Nicholas Murray Butler , president of Columbia, in 1931 for peace for his efforts on behalf of disarmament and international peace; Thomas Hunt Morgan in 1933 for physiology or medicine for his discoveries of the laws of heredity; Harold C. Urey in 1934 for chemistry for his discovery of heavy hydrogen; I.I. Rabi in 1944 for physics for measuring the radio- frequency spectra of atomic nuclei; Polykarp Kusch and Willis E. Lamb in 1955 for physics for work in measuring electromagnetic properties of the electron; Andre F. Cournand and Dickinson W. Richards in 1956 for physiology or medicine for their development of a technique of heart catheterization; Tsung-Dao Lee in 1957 for physics for research refuting the law of parity; Charles H. Townes in 1964 for physics for the development of the maser; Konrad E. Bloch in 1964 for physiology or medicine for cholesterol studies;

30. Premi Nobel Fisica Translate this page 1982, KENNETH G. WILSON. 1981, NICOLAAS BLOEMBERGEN - arthur L. schawlow- KAI M. SIEGBAHN. 1980, JAMES W. CRONIN - VAL L. FITCH. 1979, http://www.econofisica.com/premi nobel fisica.htm

ANNO PREMIATO ZHORES I. ALFEROV - HERBERT KROEMER JACK ST. CLAIR KILBY GERARDUS 'T HOOFT - MARTINUS J.G. VELTMAN ROBERT B. LAUGHLIN - HORST L. STORMER - DANIEL C. TSUI STEVEN CHU - CLAUDE COHEN TANNOUDJI - WILLIAM D. PHILLIPS DAVID M. LEE - DOUGLAS D. OSHEROFF - ROBERT C. RICHARDSON MARTIN L. PERL - FREDERICK REINES BERTRAM N. BROCKHOUSE - CLIFFORD G. SHULL RUSSEL A. HULSE - JOSERPH H. TAYLOR JR GEORGES CHARPAK PIERRE-GILLES DE GENNES JEROME I. FRIEDMAN - HENRY W. KENDALL - RICHARD E. TAYLOR NORMAN F. RAMSEY - HANS G. DEHMELT - WOLFGANG PAUL LEON M. LEDERMAN - MELVIN SCHWARTZ - JACK STEINBERGER J. GEORG BEDNORZ - K. ALEXANDER MULLER ERNST RUSKA - GERD BINNIG - HEINRICH ROHRER KLAUS VON KLITZING CARLO RUBBIA - SIMON VAN DER MEER SUBRAMANYAN CHANDRASEKHAR - WILLIAM A. FOWLER KENNETH G. WILSON NICOLAAS BLOEMBERGEN - ARTHUR L. SCHAWLOW - KAI M. SIEGBAHN JAMES W. CRONIN - VAL L. FITCH SHELDON L. GLASHOW - ABDUS SALAM - STEVEN WEINBERG

31. The Patent Dispute Regarding The Invention Of The Laser Townes and schawlow had astounding careers in physics, both winning nobel prizes(in different years). schawlow, arthur L., and Charles H. Townes, US Patent No http://elvis.engr.wisc.edu/uer/uer97/author5/content.html

The Patent Dispute Regarding the Invention of the Laser Todd Fronek The laser has become a major technological factor in today's fast paced world. CD-ROM, laser printers, and even eye surgery all involve using a laser. In 1960, Theodore Maiman produced the first working laser [Bromberg, 1988]. The discovery marked the zenith of many years of research, and also the beginning of numerous technological breakthroughs. Because many parties in addition to Maiman contributed substantial research to the invention of the laser, a dispute arose over who should receive the patent for the invention of the laser. LASER is an acronym for "light amplification by stimulated emission of radiation." A laser produces a thin beam of light that is monochromatic and coherent, meaning that the beam is one color and each wave of light travels in step. The laser process begins when energy enters and begins to strike the atoms in a system. The stimulated atoms give off energy in the form of light. This emitted light reflects back and forth between the ends of a cylinder, one end being a fully reflecting mirror and one end being a partially reflecting mirror. The light continues to excite more and more atoms, and finally the atoms contain enough energy to burst through the partially reflecting mirror in a beam of light. This beam of light has a variety of applications. For instance, it is able, in some cases, to drill tiny holes in diamonds within minutes (conventional methods take days to produce the same holes).

32. Nobel Prize Turns 100: In Memory Of Stanford's Deceased Laureates arthur L. schawlow, physics (1981); died 1999; with Nicolaas Bloembergen fortheir contribution to the development of laser spectroscopy. schawlow, a http://news-service.stanford.edu/news/october3/nobel-deceased-103.html

Contact Stanford Report News Service Press Releases Stanford Report, October 3, 2001 In memory of Stanford's deceased laureates Felix Bloch, physics (1952); died 1983; with Edward Mills Purcell "for their development of new methods for nuclear magnetic precision measurements and discoveries in connection therewith." Bloch, a professor of physics, came to Stanford in 1934 and became emeritus in 1971. Paul Flory, chemistry (1974); died 1985; "for his fundamental achievements, both theoretical and experimental, in the physical chemistry of the macromolecules." Flory, a professor of chemistry, came to Stanford in 1961 and became emeritus in 1975. Robert Hofstadter, physics (1961); died 1990; "for his pioneering studies of electron scattering in atomic nuclei and for his thereby achieved discoveries concerning the structure of the nucleons." Hofstadter, a professor of physics, came to Stanford in 1950 and became emeritus in 1985. Linus C. Pauling, chemistry (1954); peace (1962); died 1994; at the time of the awards at the California Institute of Technology; chemistry: "for his research into the nature of the chemical bond and its application to the elucidation of the structure of complex substances"; peace: for his efforts to bring about an international ban on nuclear testing and to promote world peace. Pauling, a professor of chemistry, came to Stanford in 1969 and became emeritus in 1975.

33. News 30 Dr. arthur L. schawlow, cowinner of the 1981 nobel Prize in Physics forhis work in the development of lasers, died on April 29 in Palo Alto, CA. http://www.ptbmagazine.com/ptb.schawlow430.html

34. The Nobel Prize For Physics (1901-1996) The following is a complete listing of nobel Prize awards, from electron spectroscopyNicolaas Bloembergen Laser spectroscopy arthur L. schawlow 1982 Kenneth http://physics.hallym.ac.kr/education/faq/nobel.html

[Physics FAQ] updated 9-OCT-1996 by PEG updated 12-OCT-1994 by SIC original by Scott I. Chase The Nobel Prize for Physics (1901-1996) The following is a complete listing of Nobel Prize awards, from the first award in 1901. Prizes were not awarded in every year. The description following the names is an abbreviation of the official citation.

35. The Nobel Prize For Physics (1901-1996) The following is a complete listing of nobel Prize awards, from the first award 1981,Kai M. Siegbahn Nicolaas Bloembergen arthur L. schawlow, High resolution http://physics.hallym.ac.kr/education/faq/nobel_html.html

The Nobel Prize for Physics (1901-1996) The following is a complete listing of Nobel Prize awards, from the first award in 1901. Prizes were not awarded in every year. The description following the names is an abbreviation of the official citation. Wilhelm Konrad Roentgen X-rays Hendrik Antoon Lorentz Pieter Zeeman Magnetism in radiation phenomena Antoine Henri Bequerel Pierre Curie Marie Sklodowska-Curie Spontaneous radioactivity Lord Rayleigh (a.k.a. John William Strutt) Density of gases and discovery of argon Pilipp Eduard Anton von Lenard Cathode rays Joseph John Thomson Conduction of electricity by gases Albert Abraham Michelson Precision meteorological investigations Gabriel Lippman Reproducing colors photographically based on the phenomenon of interference Guglielmo Marconi Carl Ferdinand Braun Wireless telegraphy Johannes Diderik van der Waals Equation of state of fluids Wilhelm Wien Laws of radiation of heat Nils Gustaf Dalen Automatic gas flow regulators Heike Kamerlingh Onnes Matter at low temperature Max von Laue Crystal diffraction of X-rays William Henry Bragg William Lawrence Bragg X-ray analysis of crystal structure no award Charles Glover Barkla Characteristic X-ray spectra of elements Max Planck Energy quanta Johannes Stark Splitting of spectral lines in E fields Charles-Edouard Guillaume Anomalies in nickel steel alloys Albert Einstein Photoelectric Effect Niels Bohr Structure of atoms Robert Andrew Millikan Elementary charge of electricity Karl Manne Georg Siegbahn

36. The Nobel Prize For Physics (1901-1998) watch the nobel Foundation web site at http//www.nobel.se electron spectroscopy1962 Nicolaas Bloembergen Laser spectroscopy arthur L. schawlow 1982 1972 http://hepweb.rl.ac.uk/ppUK/PhysFAQ/nobel.html

[Physics FAQ] updated 13-OCT-1998 by Nathan Urban updated 15-OCT-1997 by PEG updated 9-OCT-1996 by PEG updated 12-OCT-1994 by SIC original by Scott I. Chase The Nobel Prize for Physics (1901-1998) The following is a complete listing of Nobel Prize awards, from the first award in 1901. Prizes were not awarded in every year. The date in brackets is the approximate date of the work. The description following the names is an abbreviation of the official citation. The Physics prize is announced near the beginning of October each year. One of the quickest ways to get the announcement is to watch the Nobel Foundation web site at http://www.nobel.se/

37. Public Relations Press Release at Boulder has been named the recipient of the 1999 arthur L. schawlow Prize in Theprize is named for the nobel Prizewinning scientist who played a major http://www.colorado.edu/PublicRelations/NewsReleases/1998/Carl_Wieman_Receives_1

Contact: Peter Caughey, 303-492-4007 Oct. 12, 1998 CARL WIEMAN RECEIVES 1999 ARTHUR L. SCHAWLOW PRIZE Distinguished Professor Carl E. Wieman of the University of Colorado at Boulder has been named the recipient of the 1999 Arthur L. Schawlow Prize in Laser Science from the American Physical Society. The prize recognizes outstanding contributions to basic research that uses lasers to advance knowledge of the fundamental properties of materials and their interaction with light. The prize is named for the Nobel Prize-winning scientist who played a major role in developing the laser and its applications and includes a $10,000 award. The APS cited Wieman, "For pioneering work on the production and study of Bose-Einstein condensation in a dilute atomic vapor, which has become a major testing ground for macroscopic quantum phenomena, and quantum statistical mechanics." Wieman is a fellow and former chair of JILA, a joint institute of CU-Boulder and the National Institute of Standards and Technology. The APS is the world's leading organization of physicists and will celebrate its 100th anniversary in 1999. The international group is based in College Park, Md., and has more than 40,000 members in industry, academia and government.

38. University Of Colorado: Nobel Prize 2001 for making extremely small computer chips, according to NIST nobel Laureate William theEinstein Medal for Laser Science and the arthur L. schawlow Prize in http://www.colorado.edu/NewsServices/nobel/background.html

Site Navigation CU's Nobel Prize 2001 October 9 News Release About the Bose-Einstein Condensate Carl Wieman Vitae ... News Conference Related Links JILA Bose-Einstein Condensate CU-Boulder News Services Physics 2000 Interactive Demo The Nobel Prize Contact Peter Caughey, (303) 492-6431 (CU), e-mail: caughey@ colorado.edu Fred McGehan, National Institute of Standards and Technology (NIST) (303) 497-7000 e-mail: mcgehan@ boulder.nist.gov About the Bose-Einstein Condensate A New Form of Matter False-color images display the velocity distribution of the cloud of rubidium atoms at (a) just before the appearance of the Bose-Einstein condensate, (b) just after the appearance of the condensate and (c) after further evaporation left a sample of nearly pure condensate. The field of view of each frame is 200 x 270 micrometers, and corresponds to the distance the atoms have moved in about 1/20 of a second. The color corresponds to the number of atoms at each velocity, with red being the fewest and white being the most. Areas appearing white and light blue indicate lower velocities. Images courtesy of Mike Matthews, JILA research team. Distinguished Professor Carl E. Wieman of the University of Colorado at Boulder and Senior Scientist Eric A. Cornell of the National Institute of Standards and Technology led a team of physicists that created the world's first Bose-Einstein condensate a new form of matter on June 5, 1995.

39. Wisconsin Engineer - April, 1998 Townes and schawlow had astounding careers in physics, both winning nobel prizes. 903913.schawlow, arthur L., and Charles H. Townes, US Patent No. http://www.cae.wisc.edu/~wiscengr/issues/apr98/laser.html

The Patent Dispute Regarding the Invention of the Laser by Todd Fronek A barcode scanner is one everyday use of laser technology. The laser has become a major techno logical factor in today's fast paced world. CD-ROM, laser printers and even eye surgery all involve using a laser. In 1960, Theodore Maiman produced the first working laser [Bromberg, 1988]. The discovery marked the zenith of many years of research, and also the beginning of numerous technological breakthroughs. Because many parties in addition to Maiman contributed substantial research to the invention of the laser, a dispute arose over who should receive the patent for the invention of the laser. LASER is an acronym for "light amplification by stimulated emission of radiation." A laser produces a thin beam of light that is monochromatic and coherent, meaning that the beam is one color and each wave of lighttravels in step. The laser process begins when energy enters and begins to strike the atoms in a system. The stimulated atoms give off energy in the form of light. This emitted light reflects back and forth between the ends of a cylinder, one end being a fully reflecting mirror and one end being a partially reflecting mirror. The light continues to excite more and more atoms, and finally the atoms contain enough energy to burst through the partially reflecting mirror in a beam of light. This beam of light has a variety of applications. For instance, it is able, in some cases, to drill tiny holes in diamonds within minutes (conventional methods take days to produce the same holes).

40. Nat'l Academies Press, Atomic, Molecular, And Optical Science: (1994), A Nobel P British Areas of concentration Electron optics and holography Gabor was awardedthe nobel Prize for his arthur L. schawlow Nationality American http://www.nap.edu/books/0309050324/html/147.html

Atomic, Molecular, and Optical Science: An Investment in the Future Commission on Physical Sciences, Mathematics, and Applications ( CPSMA Related Books CHAPTER SELECTOR: Openbook Linked Table of Contents Front Matter, pp. i-xii Contents, pp. xiii-xviii Executive Summary, pp. 1-3 Part I Overview, pp. 4-20 Part II Atomic, Molecular, and Optical Science: Today and T..., pp. 21-22 1 Case Studies in AMO Science, pp. 23-35 2 Recent Major Advances and Opportunities in AMO Science a..., pp. 36-107 3 Education and Human Resources, pp. 108-115 4 Funding and Infrastructure for Research and Development ..., pp. 116-134 5 Economic Impact of AMO Science, pp. 135-140 6 International Perspectives in AMO Science, pp. 141-144 Appendixes, pp. 145-146 A Nobel Prizes Awarded in AMO Science Since 1964, pp. 147-154 B Impact of AMO Science, pp. 155-158 C Citation Analysis, pp. 159-162 D Survey of AMO Scientists, pp. 163-206 GO TO PAGE: TABLE OF CONTENTS PAGE PRINTABLE PDF IMAGE CHAPTER PAGE PURCHASE OPTIONS This book is also available in: HTML EXECUTIVE SUMMARY You may want to explore these Related Books CHAPTER SELECTOR: Openbook Linked Table of Contents Front Matter, pp. i-xii

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