Download Free Nobel Lectures In Physics 2006 2010 Book in PDF and EPUB Free Download. You can read online Nobel Lectures In Physics 2006 2010 and write the review.

This volume is a collection of the Nobel lectures delivered by the prizewinners, together with their biographies and the presentation speeches by Nobel Committee members for the period 2006-2010. The criterion for the Physics award is to the discoverer of a physical phenomenon that changed our views, or to the inventor of a new physical process that gave enormous benefits to either science at large or to the public. The biographies are remarkably interesting to read and the Nobel lectures provide detailed explanations of the phenomena for which the Laureates were awarded the Nobel Prize.Aspiring young scientists as well as more experienced ones, but also the interested public will learn a lot from and appreciate the geniuses of these narrations.List of prizewinners and their discoveries:(2006) to John C Mather and George F Smoot “for their discovery of the blackbody form and anisotropy of the cosmic microwave background radiation” The very detailed observations that the Laureates have carried out from the COBE satellite have played a major role in the development of modern cosmology into a precise science.(2007) to Albert Fert and Peter Grünberg “for the discovery of Giant Magnetoresistance” Applications of this phenomenon have revolutionized techniques for retrieving data from hard disks. The discovery also plays a major role in various magnetic sensors as well as for the development of a new generation of electronics. The use of Giant Magnetoresistance can be regarded as one of the first major applications of nanotechnology.(2008) to Yoichiro Nambu “for the discovery of the mechanism of spontaneous broken symmetry in subatomic physics“, and to Makoto Kobayashi and Toshihide Maskawa “for the discovery of the origin of the broken symmetry which predicts the existence of at least three families of quarks in nature” Why is there something instead of nothing? Why are there so many different elementary particles? The Laureates presented theoretical insights that give us a deeper understanding of what happens far inside the tiniest building blocks of matter.(2009) to Charles Kuen Kao “for groundbreaking achievements concerning the transmission of light in fibers for optical communication“, and to Willard S Boyle and George E Smith “for the invention of an imaging semiconductor circuit — the CCD sensor” Kao's discoveries have paved the way for optical fiber technology, which today is used for almost all telephony and data communication. Boyle and Smith have invented a digital image sensor — CCD, or charge-coupled device — which today has become an electronic eye in almost all areas of photography.(2010) to Andre Geim and Konstantin Novoselov “for groundbreaking experiments regarding the two-dimensional material graphene” The Laureates have shown that a thin flake of ordinary carbon, just one atom thick, has exceptional properties that originate from the remarkable world of quantum physics.
Physiology or medicine was the third prize area Alfred Nobel mentioned in his will. Nobel had an active interest in medical research. He came into contact with Swedish physiologist Jöns Johansson through Karolinska Institute around 1890. Johansson worked for a brief period in Nobel's laboratory in Sevran, France during the same year. The Nobel Prize in Physiology or Medicine is awarded by the Nobel Assembly at Karolinska Institute. This volume is a collection of the Nobel lectures delivered by the Nobel Laureates, together with their biographies and the presentation speeches for the period 2006-2010.List of Laureates and their award citations:(2006) Andrew Z Fire and Craig C Mello — for their discovery of RNA interference-gene silencing by double-stranded RNA;(2007) Mario R Capecchi, Martin J Evans and Oliver Smithies — for their discoveries of principles for introducing specific gene modifications in mice by the use of embryonic stem cells;(2008) Harald zur Hausen — for his discovery of human papilloma viruses causing cervical cancer, and Françoise Barré-Sinoussi and Luc Montagnier — for their discovery of human immunodeficiency virus;(2009) Elizabeth H Blackburn, Carol W Greider and Jack W Szostak — for the discovery of how chromosomes are protected by telomeres and the enzyme telomerase;(2010) Robert G Edwards — for the development of in vitro fertilization.
Covering the theory of computation, information and communications, the physical aspects of computation, and the physical limits of computers, this text is based on the notes taken by one of its editors, Tony Hey, on a lecture course on computation given b
This volume is a collection of the Nobel lectures delivered by the prizewinners, together with their biographies and the presentation speeches by Nobel Committee members for the period 2006-2010. The criterion for the Physics award is to the discoverer of a physical phenomenon that changed our views, or to the inventor of a new physical process that gave enormous benefits to either science at large or to the public. The biographies are remarkably interesting to read and the Nobel lectures provide detailed explanations of the phenomena for which the Laureates were awarded the Nobel Prize.Aspiring young scientists as well as more experienced ones, but also the interested public will learn a lot from and appreciate the geniuses of these narrations.List of prizewinners and their discoveries: (2006) to John C Mather and George F Smoot "for their discovery of the blackbody form and anisotropy of the cosmic microwave background radiation" The very detailed observations that the Laureates have carried out from the COBE satellite have played a major role in the development of modern cosmology into a precise science.(2007) to Albert Fert and Peter Grünberg "for the discovery of Giant Magnetoresistance" Applications of this phenomenon have revolutionized techniques for retrieving data from hard disks. The discovery also plays a major role in various magnetic sensors as well as for the development of a new generation of electronics. The use of Giant Magnetoresistance can be regarded as one of the first major applications of nanotechnology.(2008) to Yoichiro Nambu "for the discovery of the mechanism of spontaneous broken symmetry in subatomic physics", and to Makoto Kobayashi and Toshihide Maskawa "for the discovery of the origin of the broken symmetry which predicts the existence of at least three families of quarks in nature" Why is there something instead of nothing? Why are there so many different elementary particles? The Laureates presented theoretical insights that give us a deeper understanding of what happens far inside the tiniest building blocks of matter.(2009) to Charles Kuen Kao "for groundbreaking achievements concerning the transmission of light in fibers for optical communication", and to Willard S Boyle and George E Smith "for the invention of an imaging semiconductor circuit -- the CCD sensor" Kao's discoveries have paved the way for optical fiber technology, which today is used for almost all telephony and data communication. Boyle and Smith have invented a digital image sensor -- CCD, or charge-coupled device -- which today has become an electronic eye in almost all areas of photography.(2010) to Andre Geim and Konstantin Novoselov "for groundbreaking experiments regarding the two-dimensional material graphene" The Laureates have shown that a thin flake of ordinary carbon, just one atom thick, has exceptional properties that originate from the remarkable world of quantum physics.
Mentioned as the second prize area in his will, Chemistry was the most important science for Alfred Nobel's own work. The development of Nobel's inventions as well as the industrial processes he employed were based upon chemical knowledge. This volume is a collection of the Nobel lectures delivered by the prizewinners, together with their biographies and the presentation speeches for the period 2006-2010. Each Nobel lecture is based on the work for which the laureate was awarded the prize.List of prizewinners and their award citations:(2006) Roger D Kornberg — for his studies of the molecular basis of eukaryotic transcription;(2007) Gerhard Ertl — for his studies of chemical processes on solid surfaces;(2008) Osamu Shimomura, Martin Chalfie and Roger Y Tsien — for the discovery and development of the green fluorescent protein, GFP;(2009) Venkatraman Ramakrishnan, Thomas A Steitz and Ada E Yonath — for studies of the structure and function of the ribosome;(2010) Richard F Heck, Ei-ichi Negishi and Akira Suzuki — for palladium-catalyzed cross couplings in organic synthesis.
In 1968, Sveriges Riksbank (Sweden's central bank) established the Prize in Economic Sciences in Memory of Alfred Nobel, founder of the Nobel Prize. The Prize in Economic Sciences is awarded by the Royal Swedish Academy of Sciences, Stockholm, according to the same principles as for the Nobel Prizes that have been awarded since 1901. This volume is a collection of the Nobel lectures delivered by the prizewinners, together with their biographies and the presentation speeches, for the period 2006-2010.List of prizewinners and their award citations:(2006) Edmund S Phelps — for his analysis of intertemporal tradeoffs in macroeconomic policy;(2007) Leonid Hurwicz, Eric S Maskin and Roger B Myerson — for having laid the foundations of mechanism design theory;(2008) Paul Krugman — for his analysis of trade patterns and location of economic activity;(2009) Elinor Ostrom — for her analysis of economic governance, especially the commons, and Oliver E Williamson — for his analysis of economic governance, especially the boundaries of the firm;(2010) Peter A Diamond, Dale T Mortensen and Christopher A Pissarides — for their analysis of markets with search frictions.
Equally important to our understanding of history and humanity are the great works of literature. The Nobel Prize for literature recognises modern classics and the efforts of authors to bridge gaps between different cultures, time-periods and styles; the prizewinners between 1968 and 1995 are from four continents. These volumes are collections of the Nobel lectures delivered by the prizewinners, together with their biographies, portraits and presentation speeches for the period 1968 - 1995. Each Nobel lecture is based on the work that won the laureate his prize. New biographical data of the laureates, since they were awarded the Nobel prize, are also included. These volumes of inspiring lectures by outstanding individuals should be on everyone's bookshelf. Literature: (1981) E Canetti -- for writings marked by a broad outlook, a wealth of ideas and artistic power; (1982) G G Marquez -- for his novels and short stories, in which the fantastic and the realistic are combined in a richly composedworld of imagination, reflecting a continent's life and conflicts; (1983) W Golding -- for his novels which, with the perspicuity of realistic narrative art and the diversity and universality of myth, illuminate the human condition in the world of today; (1984) J Seifert -- for his poetry which endowed with freshness, sensuality and rich inventiveness provides a liberating image of the indomitable spirit and versatility of man; (1985) C Simon -- who in his novel combines the poet's and the painter's creativeness with a deepened awareness of time in the depiction of the human condition; (1986) W Soyinka -- who in a wide cultural perspective and with poetic overtones fashions the drama ofexistence; (1987) J Brodsky -- for an all-embracing authorship imbued with clarity of thought and poetic intensity; (1988) N Mahfouz -- who, through works rich in nuance -- now clearsightedly realistic, now evocatively ambiguous --
The counter-intuitive aspects of quantum physics have been long illustrated by thought experiments, from Einstein's photon box to Schrödinger's cat. These experiments have now become real, with single particles - electrons, atoms, or photons - directly unveiling the strange features of the quantum. State superpositions, entanglement and complementarity define a novel quantum logic which can be harnessed for information processing, raising great hopes for applications. This book describes a class of such thought experiments made real. Juggling with atoms and photons confined in cavities, ions or cold atoms in traps, is here an incentive to shed a new light on the basic concepts of quantum physics. Measurement processes and decoherence at the quantum-classical boundary are highlighted. This volume, which combines theory and experiments, will be of interest to students in quantum physics, teachers seeking illustrations for their lectures and new problem sets, researchers in quantum optics and quantum information.
This volume is a collection of the Nobel Lectures delivered by the prizewinners, together with their biographies, portraits and the presentation speeches for the period 1996 ? 2000. Each Nobel Lecture is based on the work that won the prize. This volume of inspiring lectures by outstanding physicists should be on the bookshelf of every keen student, teacher and professor of physics as well as of those in related fields.Below is a list of the prizewinners during the period 1996 ? 2000 with a description of the works which won them their prizes.(1996) D M LEE, D D OSHEROFF & R C RICHARDSON ? for their discovery of superfluidity in helium-3; (1997) S CHU, C COHEN-TANNOUDJI & W D PHILLIPS ? for development of methods to cool and trap atoms with laser light; (1998) R B LAUGHLIN, H L ST™RMER & D C TSUI ? for their discovery of a new form of quantum fluid with fractionally charged excitations; (1999) G 't HOOFT & M J G VELTMAN ? for elucidating the quantum structure of electroweak interactions in physics; (2000) Z I ALFEROV & H KROEMER ? for developing semiconductor heterostructures used in high-speed and opto-electronics and; J S KILBY ? for his part in the invention of the integrated circuit.