Savoirs ENS

Accueil/ expose

#carousel1 li{ width:150px; height:180px; } #carousel2 li{ width:150px; height:180px; } Einstein's photon and bohr's atom revisited in cavity quantum electrodynamics

jeudi 10 janvier 2013
Loading the player... Descriptif

Conférence de Serge Haroche dans le cadre du séminaire de physique 2012-2013

This year, Bohr’s model of the Hydrogen atom is 100 years old. Height years after Einstein showed that light is quantized and introduced the concept of photons, the young Danish physicist announced in 1913 that matter too could be described by quanta. He postulated that, in the Hydrogen atom, only a set of orbits is allowed, corresponding to discrete energies and radiuses. He added that emission and absorption of light by the atom occurs by quantum jumps between these discrete orbits. These jumps, occurring at random times, are correlated with the appearance or disappearance of light quanta whose very existence was predicted by Einstein.

Since then, quantum theory has gained considerable precision and complexity, but remarkably, these century-old concepts remain valid. The experiments of cavity quantum electrodynamics we perform at Laboratoire Kastler-Brossel on circular Rydberg atoms, which interact with photons trapped in superconducting cavities, illustrate straightforwardly the ideas of Bohr and Einstein. The atoms we use are ruled by Bohr’s model and the photons, which we detect without demolishing them thanks to these atoms, behave like the photons Einstein thought of trapping and counting in a box. These studies can hence be considered as the realization of some thought experiments that these founding fathers of quantum theory had envisioned, yet believing they would forever stay virtual. I will describe these experiments enabling the control and manipulation of photons by atoms by showing how they illustrate the principles of quantum physics and could someday lead to interesting applications for quantum information processing

Thèmes : Physique
Catégories: Colloquium / Séminaire général du département de physique
Mot-clés : Electrodynamique quantique, Photon, Physique quantique, historique, Einstein, Boîte à photons, Bohr Niels

Voir aussi

du même auteur
Colloquium / Séminaire général du département de p...

Tests fondamentaux de physique quantiqu...
Serge Haroche
14 minutes avec 14 scientifiques
Alain Prochiantz, Serge Haroche, François Bouchet, Alain Berthoz, Clotilde Policar, Susan Solomon, Elena Pasquinelli, Rava Da Silveira, Françoise Combes, Gérard Berry, Stanislas Dehaene, Julia Lawall, René Frydman, Eléonore Stutzmann
Innover : quel rôle pour la recherche fo...
Serge Haroche, Christophe Pébarthe, Thierry Weil
Afternoon session Introduction
Serge Haroche
Quantum Science with Rydberg Atoms
Serge Haroche

Les sables mouvants
Daniel Bonn
Développements actuels en spintronique
Albert Fert
La physique au LHC (Large Hadron Collide...
Jean Iliopoulos, Costas Bachas
La physique au LHC (Large Hadron Collide...
Jean Iliopoulos, Costas Bachas
La physique au LHC (Large Hadron Collide...
Jean Iliopoulos, Costas Bachas
La physique au LHC (Large Hadron Collide...
Jean Iliopoulos, Costas Bachas
Des dynamos industrielles aux champs mag...
Stéphan Fauve
La nanophotonique : éclats d’une lumièr...
Henri Benisty
Les gaz ultra-froids : un monde quantiqu...
Jean Dalibard
Joining Microelectronics and Microionic...
Peter Fromherz
Allers et retours entre physique et biol...
Yves Couder
La dynamo turbulente : résultats récent...
Stéphan Fauve
Semiconductor Nanocrystals: Science and ...
Moungi Bawendi
Deux siècles de découvertes sur la capil...
Yves Pomeau
Quantum Shot Noise: From Schottky to Bel...
Markus Buttiker
Les polaritons de cavité : des condensat...
Jacqueline Bloch
Un nucléaire durable pour une énergie d’...
Claude Guet
Premier bilan de la mission spatiale Cas...
Pierre Drossart
Matériaux d’indice négatif : avec Alice ...
Daniel Maystre
Les archives ouvertes
Jean Zinn-Justin
La zététique, une éducation à l’autodéfe...
Denis Caroti
Cell surface mechanics during tissue mor...
Pierre-François Lenne
Modélisation de la dynamique non-linéair...
Michel Benoit
Physics of Multicellularity
Ray Goldstein
Nanovecteurs de médicaments et nanofiltr...
Fabien Picaud
Le grand collisionneur d’hadrons
Laurent Jean Tavian
Mécanique et vibro-acoustique du piano
Xavier Boutillon
Un mécanisme quantique pour l’odorat ?...
Luca Turin
Gérer la contrainte carbone, un jeu d'en...
Jean-Marc Jancovici
The Complex Physics of Climate Change : ...
Michael Ghil
Solid Helium : Supersolidity or Quantum ...
John Beamish
Dynamique de la matière noire : simulati...
Stéphane Colombi
Détection exaltée de molécules avec des ...
Jérôme Wenger
Ettore Majorana : quand la disparition c...
Etienne Klein
Évaluation de la qualité du violon : co...
Claudia Fritz
Spectroscopy of Trapped Atomic Antihydro...
Mike Hayden
La place des femmes au CNRS
Pascale Bukhari
Sea level through geological time : impl...
Kurt Lambeck
Vote-au-pluriel : expérimenter avec les...
Jean-François Laslier
Des photons vrais ou faux jumeaux ?
Émmanuel Rosencher
Prix des trois Physiciens 2012 : Matièr...
Françoise Combes
Non-abelian statistics
Victor Gurarie
La main à la pâte
David Wilgenbus
Quantum Origin of the Universe - Lectur...
Viatcheslav Mukhanov
Tests fondamentaux de physique quantiqu...
Serge Haroche
Quantum Origin of the Universe - Lectur...
Viatcheslav Mukhanov
How do fluids flow at the wall ?
Patrick Tabeling
Coherent quantum phase slip ? Josephson ...
Jaw-Shen Tsai
Nucleation and growth at the nanoscale ...
Christoph Dellago
Search and Discovery of a Higgs-like bos...
Daniel Fournier
Quantum information with nv centers in d...
Patrice Bertet
Condensed matter via general relativity
Eric D’Hoker
Geometry and Embryonic Patterning
Eric Siggia
The maps inside your head how the brain ...
Vijay Balasubramanian
Quantum optics with propagating microwav...
Andreas Wallraff
Towards unification of spacetime and mat...
Hikaru Kawai
Birds, spin and entropy a theoretical ph...
Irene Giardina
Vitrimers
Ludwik Leibler
Topological fluid mechanics From Gauss’ ...
Renzo Ricca
Quantum finite non-equilibrium thermodyn...
Vlatko Vedral
First cosmological results from the Plan...
François Bouchet
Hamiltonian Theory of Fractional Chern B...
Ramamurti Shankar
Emerging and broken symmetries in turbul...
Gregory Falkovich
Inverse cascades and condensates
Gregory Falkovich
How masses have been generated in the ea...
Jean Iliopoulos
Casimir energies and forces an accelerat...
Kimball Milton
$How atoms and charges move in crystals x-ray diffraction in the femtosecond time domain$ How atoms and charges move in crystals ...
Thomas Elsaesser
Science in society issues the example o...
Catherine Oualian, Camille Breton
The physical genome
Rob Phillips
Tracing the growth of massive black hole...
Marta Volonteri
When the environment drives the system q...
Gert-Ludwig Ingold
Statistical physics of compressed sensin...
Marc Mézard
Some new results on the history of ancie...
Lucio Russo
Mesoscopic superconductivity what do we ...
Hugues Pothier
Polymers, Message Passing, and London Un...
Michael Wong
Quantum memories with cold atomic ensemb...
Elisabeth Giacobino
Analysis of fluid systems by optimizatio...
Peter Schmid
Carbon chelmistry and carbon balance in ...
José Cernicharo
Imaging magnetic fields at the nanoscal...
Vincent Jacques
Black hole accretion and cosmic evolutio...
Sera Markoff
Physics of Cancer - The role of angiogen...
Heiko Rieger
Quantum limit of heat flow across an ele...
Frédéric Pierre
Thermodynamics of strongly correlates ga...
Frédéric Chevy
Fast and slow quenches across second ord...
Leticia Cugliandolo
Conformal symmetry of critical fluctuati...
Vyacheslav Slava Rychkov
La physique surprise - Renouveler les ex...
Jean-Michel Courty, Edouard Kierlik
Economic and financial crises, a physici...
Jean-Philippe Bouchaud
Why do we see it that way ?
William Bialek
A few applications of vector bundles in ...
Benoît Douçot
A few applications of vector bundles in ...
Benoît Douçot
Statistical physics of neural assemblie...
Rémi Monasson
Auditory perception of temporal modulati...
Christian Lorenzi
Bacteria powered micro-devices
Roberto Di Leonardo
Mesures de précision et tests fondamenta...
François Biraben
The Ultimate Limit of Optical Fibers to ...
René-Jean Essiambre
Hot topic in nanomedicine : how to overc...
Patrick Couvreur
Attosecond lasers : principles, metrolog...
Fabien Quéré
Imaging of extrasolar planets : challeng...
Anne-Marie Lagrange
2015 Planck full mission result
Jean-Loup Puget
Nonequilibrium structures and glassy dyn...
Ludovic Berthier
Soft matter and cooking : a pedagogical ...
Patrick Charbonneau, Justine De Valicourt
From water molecules to atmospheric circ...
Valérie Masson-Delmotte
Backaction of quantum measurement in sup...
Benjamin Huard
From fundamental physics to the origins ...
Marco Saitta
LEDs for lighting - the physical and mat...
Claude Weisbuch
Nanoassembling for soft matter : fluidic...
Alessandro Siria
Clustering of networks : From phase tran...
Lenka Zdeborova
Dynamic nuclear polarization
Geoffrey Bodenhausen
Progress towards Fusion Energy at ITER
David J. Campbell
The new role of time and events in compu...
Gérard Berry
Modelling the physics of galaxy formatio...
Julien Devriendt
What keeps the magnetic field of the Ear...
Peter Davidson
Short wavelength radiation
Catalin Miron
From the basics of spintronics to some r...
Vincent Cros
Topological Mechanical Metamaterials
Vincenzo Vitelli
The universe before the big bang
Valery Rubakov
How to pack and unpack spheres
Matthieu Wyart
Black holes reject their food
Françoise Combes
Electron quantum optics in ballistic con...
Gwendal Feve
Electron quantum optics in ballistic con...
Gwendal Feve
Cavity quantum electrodynamics with carb...
Takis Kontos
Controlling light propagation in comple...
Sylvain Gigan
SubTHz photons in the universe and in m...
Philippe Goy
Climat : y voir clair pour agir
Sébastien Balibar
Learning multiscale invariants from big ...
Stéphane Mallat
Diversity of immune receptor repertoire...
Aleksandra Walczak
Biomicrofluidics and Mesobiotechnologie...
Yong Chen
The building of the future: challenges a...
Didier Roux
The Rosetta Mission
Jean-Pierre Bibring
Non-linear responses, soft-modes and th...
Giulio Biroli
Ergodicity : an historical perspective. ...
Giovanni Gallavotti
Is the forced two-dimensional model “goo...
Kiori Obuse
What is the difference between a graphen...
Adrian Bachtold
The birth of gravitational astronomy
Patrice Hello
Making 'Living Matter' from the bottom u...
Ramin Golestanian
The birth of gravitational astronomy
Patrice Hello
The H boson and Beyond at the LHC
Yves Sirois
Hybrid organic perovskites : a new semic...
Emmanuelle Deleporte
Exploring the outer solar system with st...
Bruno Sicardy
Physics and Sport
Christophe Clanet
Charge storage in nanoporous carbons: Th...
Benjamin Rotenberg
General Relativity, Gravitational Waves ...
Thibault Damour
Multicolor and multicontrast nonlinear m...
Emmanuel Beaurepaire
Statistical-physics inspired modelling o...
Martin Weigt
Materials advances for better Li(Na)-io...
Jean-Marie Tarascon
Cosmic connections : from cosmic rays t...
Alexander Kusenko
Analyse technique et économique du systè...
Alain Burtin
Gravitational Waves : Theory, Sources an...
Alexandre Le Tiec
Gravitational Waves : Theory, Sources an...
Alexandre Le Tiec
Atomic force microscopy provides new vis...
Franz J. Giessibl
Understanding old masters’ painting tech...
Laurence Viguerie de
The hunt for a quantum algorithm for Gra...
Cristopher Moore
Quantum simulations : from condensed mat...
Juan Ignacio Cirac
The Single Molecule Game
Vincent Croquette
Images, robots and humans
Jocelyne Troccaz
Earthquakes ! In the laboratory...
Alexandre Schubnel
Shortcuts to adiabaticity
David Guéry-Odelin
On Effective Field Theory
Leonardo Senatore
Searching for Dark Matter
Marco Cirelli
Electron and lattice dynamics in solids ...
Thomas Elsaesser
Pluto revealed by the New Horizons missi...
François Forget
Probing and controlling ultracold quantu...
Immanuel Bloch
Nanotechnology for single-molecule and s...
Cees Dekker
Undecidability in physics… and its conse...
David Pérez-García
Collective effects in transport systems...
Cécile Appert-Rolland
The Nobel prize in Physics 2016: Topolog...
Jean-Noël Fuchs
The ocean : A turbulent control system f...
Sabrina Speich
Nonlinear fluctuating hydrodynamics and ...
Herbert Spohn
The physics of exceptional points
Stefan Rotter
Modeling solids and its impact on scienc...
Marvin L. Cohen
What can we do with genes in medicine ? ...
Alain Fischer
Hydrodynamics and quantum anomalies
Dam Thanh Son
Light Control in complex media : from im...
Sylvain Gigan
Light Control in complex media : from im...
Sylvain Gigan
From quantum measurement to quantum simu...
Michel Brune
De la topologie aux machines moléculaire...
Jean-Pierre Sauvage
From glass to vitrimers : a story of exc...
Ludwik Leibler
Tests of quantum mechanics and gravitati...
Mark Kasevich
Stories of grains in fluids
Yoël Forterre
Fluids of light in semiconductor lattice...
Jacqueline Bloch
The direct observation of gravitational ...
Bruce Allen
Towards a Predictive Theory of Strongly-...
Gabriel Kotliar
Saving the Quantum : How to make friend...
Sabrina Maniscalco
Nanopores in 2D Materials
Alexandra Radenovic
Towards a renormalization group for netw...
William Bialek
Long-range propagation of ocean swell
William Roy Young
Fast magnetic reconnection in space and ...
Amitava Bhattacharjee
Dynamical fluctuations far from equilibr...
Kirone Mallick
Graphene in the (Terahertz) Microwave
Mischa Bonn
An introduction to quantum cryptography...
Pierre Rouchon
A tale of turbulence and gravity
Edith Falgarone
Quand les ondes dessinent des motifs géo...
Laure Saint-Raymond
Nano-optics : an enabling tool for basi...
Romain Quidant
From “cognitive-type” neural microcircui...
Xiao Jing Wang
Quantum Internet : Vision or Fiction ?
Gerhard Rempe
Fast irreversible Markov chains and thei...
Werner Krauth
Quantum Inflation in the Planck Era and ...
J. Richard Bond
Physics approaches of biological membran...
Patricia Bassereau
When random walkers help solving intrigu...
Emmanuel Trizac
Extracting Order from Disorder : Periodi...
Rich Kerswell
Statistics and Dynamics of Soft Wetting
Bruno Andreotti
A statistical physics perspective on som...
Vincent Hakim
Quantum optomechanics with superfluid he...
Jack Harris
Neuromorphic computing : overview and ch...
Julie Grollier
Slip of polymeric fluids
Frédéric Restagno
Dynamics of mixed turbulent / stably-st...
Michael Le Bars
Pour en savoir plus sur l'aération et l...
François Pétrélis, Jean-Michel Courty, Benoît Semin, Pascal Morenton, Florence Elias, Bertrand Maury
Pratique de la mesure du CO2 dans les ét...
François Pétrélis, Jean-Michel Courty, Benoît Semin, Pascal Morenton, Florence Elias, Bertrand Maury
The spin glass cornucopia revisited
Marc Mézard
Twenty years of mesoscopic physics at EN...
Bernard Plaçais
Scale invariance for quantum fluids : so...
Jean Dalibard
Ground based gravitational-wave astronom...
Matteo Barsuglia
How a physical system can be turned int...
Florian Marquardt
Probing the first galaxies and cosmic re...
Hakim Atek
Propagation and stabilization in time-va...
Emmanuel Fort
How personalised is our immune repertoir...
Aleksandra Walczak
The Swampland Program in Quantum Gravit...
SARS-CoV-2: pathologies, mesure du risqu...
Bruno Andreotti
Quantum many-body physics with ultracol...
Frédéric Chevy
Quantum Science with Rydberg Atoms
Serge Haroche
On the nature of the glass transition
Matthieu Wyart
Quantum Chaos and the Foundations of Sta...
Mark Srednicki
Cell iophysics : phase diagrams, phase p...
Cécile Sykes
Odd turbulence
Vincenzo Vitelli
Universal scalings in evolving and stati...
Sergey Nazarenko

Auteur(s)

Serge Haroche
Ecole normale supérieure / Collège de France
Physicien

Plus sur cet auteur
Voir la fiche de l'auteur

Cursus :

Né en 1944 à Casablanca, Serge Haroche a fait ses études à l'École normale supérieure. Il a été chercheur au CNRS, maître de conférences à l'École polytechnique, professeur à l'université Pierre-et-Marie-Curie et membre de l'Institut de France. Il a également enseigné pendant neuf ans à l'université de Yale, aux États-Unis. Fidèle à l’ENS, il y dirigea le département de physique de 1994 à 2000. Membre de l'Académie des sciences, il est administrateur du Collège de France depuis le 1er septembre 2012 et dirige depuis 2001, le groupe d'électrodynamique des systèmes simples au sein du laboratoire Kastler Brossel (École normale supérieure/UPMC/CNRS/Collège de France). Le prix Nobel de physique 2012 lui a été décerné pour ses travaux en physique quantique, travaux qui ont permis de mesurer et de manipuler des systèmes quantiques individuels.

Cliquer ICI pour fermer Annexes Téléchargements :
- Télécharger la vidéo
- Télécharger l'audio (mp3)

Dernière mise à jour : 05/12/2013

Liens utiles

Contact
Partenaires
Conditions d'utilisation
Mentions légales
Podcasts

CYCLES

> Colloquium DEC
> Les Ernest
> Les jeudis de l’archéologie
> Actualité critique
> Les jeudis de l’HPS
> Séminaire Médecine
Humanités
> Journée Georges Bram
> Les lundis de la philo

> Les Nuits de l’ENS
> Semaine du cerveau
> Séminaire général du
département d'informatique
> Séminaire général
de physique
> Séminaire Transferts culturels
> La Voix d’un texte

PARTENARIATS

RESEAUX SOCIAUX

SCIENCES

LETTRES