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Alain Aspect

Alain Aspect (born 15 June 1947) is a French physicist renowned for his pioneering experimental work on quantum entanglement, particularly his 1981–1982 demonstrations that confirmed the violation of Bell's inequalities using entangled photons, thereby validating key predictions of quantum mechanics and advancing the foundations of quantum information science.^[1]^[2] For these contributions, he shared the 2022 Nobel Prize in Physics with John Clauser and Anton Zeilinger.^[3] Born in Agen, France, Aspect pursued his early education in physics at the École Normale Supérieure de Cachan (now ENS Paris-Saclay), followed by advanced studies at the Université d'Orsay (now Université Paris-Saclay), where he earned a master's degree in 1971 and a PhD in 1983.^[2]^[4] His doctoral thesis, titled Three Experimental Tests of Bell’s Inequalities With Entangled Photons, focused on experimental validations of quantum theory's counterintuitive aspects.^[2] Between 1971 and 1974, he volunteered as a teacher at the ENS in Yaoundé, Cameroon, an experience that shaped his commitment to education.^[2] Aspect's career began as a lecturer at the ENS de Cachan and a researcher at the Institut d'Optique, where he conducted his landmark experiments using a krypton laser and calcium atoms to generate entangled photon pairs, closing the locality loophole and significantly advancing Bell tests by improving photon pair generation and measurement switching.^[2]^[1] He later became a CNRS senior scientist at the Laboratoire Charles Fabry and held the Augustin Fresnel Chair as professor at the Institut d'Optique Graduate School – Université Paris-Saclay, while also serving as a professor at École Polytechnique in Palaiseau.^[5]^[4] He served as a CNRS research director from 1992 until his retirement and is now CNRS Director of Research Emeritus, and he collaborated with Claude Cohen-Tannoudji on laser cooling of atoms, contributing to another Nobel-recognized field.^[4]^[2] Beyond the Nobel Prize, Aspect's work has had profound implications for quantum technologies, including secure communication via quantum cryptography and the development of quantum computers and networks.^[3] He has received honors such as the Servan Prize from the French Académie des Sciences and, in 2025, was elected to the Académie française, and remains active in promoting scientific outreach and education.^[2]^[6]

Early Life and Education

Early Life

Alain Aspect was born on June 15, 1947, in Agen, a town in the rural southwestern region of Lot-et-Garonne, France.^[4] Growing up in a post-World War II environment marked by optimism about scientific progress and reconstruction, Aspect was the son of a teacher, which likely provided an early foundation in education and intellectual curiosity.^[7]^[8] During his childhood in a small rural village during the 1950s and 1960s, Aspect developed a strong fascination with technical objects and scientific concepts, influenced by the scarcity of modern technology in his surroundings and the era's emphasis on science as a driver of human advancement.^[8] He was particularly drawn to Jules Verne's adventure novels, such as L’Île mystérieuse, which sparked his imagination about invention and exploration.^[8] From elementary school onward, Aspect showed a keen interest in science, eagerly engaging with simple experiments while finding subjects like history and geography unengaging.^[8] Aspect's passion for physics solidified during his high school years, where the curriculum initially lacked physics and chemistry for the first four years, leaving him frustrated but undeterred.^[8] In his final year, a transformative physics teacher inspired him profoundly, guiding his decision to pursue the subject seriously and leading him to excel in the national physics examination, where he placed second.^[7]^[8] This success paved the way for his admission to the École Normale Supérieure de Cachan.^[7]

Education

Alain Aspect began his higher education in 1965 at the École Normale Supérieure de Cachan (now ENS Paris-Saclay), where he pursued studies in physics alongside coursework at the Université d'Orsay (now part of Université Paris-Saclay).^[9] This dual enrollment provided a rigorous foundation in theoretical and experimental physics, culminating in his graduation from ENS Cachan in 1969.^[10] In 1969, Aspect successfully passed the agrégation in physics, a highly competitive national examination in France that qualifies candidates for teaching positions in secondary education and serves as a gateway to advanced academic careers.^[9] This achievement marked the completion of his undergraduate training and positioned him for graduate studies. Aspect then pursued his graduate work at the Université d'Orsay, earning his thèse de troisième cycle (equivalent to a master's thesis in the French system) in 1971 at the Université d'Orsay (now Université Paris-Saclay).^[9] His thesis focused on "Fourier spectroscopy by holography," exploring optical techniques for spectral analysis using holographic methods.^[9] Following his graduate studies, Aspect fulfilled his national service obligation from 1971 to 1974 as a teacher at the École Normale Supérieure de Yaoundé in Cameroon, serving as part of a voluntary overseas program.^[9] During this period, he contributed to physics education in a resource-limited environment, adapting advanced concepts to local teaching needs while gaining practical experience in international academic settings.^[11] Aspect later advanced his qualifications with a Doctorat d'État from Université Paris-Sud in 1983, a higher doctoral degree in the French system that demonstrates original research contributions and qualifies holders for senior academic roles.^[9] His dissertation, titled "Trois tests expérimentaux des inégalités de Bell par corrélation de polarisation de photons," laid the groundwork for his seminal work in quantum optics.^[12]

Academic and Professional Career

Early Career

Upon returning to France in 1974 after serving as a teacher in Cameroon from 1971 to 1974, Alain Aspect secured a permanent position as maître-assistant (lecturer) at the École Normale Supérieure de Cachan, allowing him to allocate half his time to research.^[13] His educational background as an alumnus of the École Normale Supérieure de Cachan facilitated this entry into academia.^[2] He conducted his doctoral work at the Institut d'Optique under the supervision of Christian Imbert, focusing on quantum optics and atomic interactions, with close collaborations including Claude Cohen-Tannoudji.^[13]^[2] During the late 1970s, Aspect developed initial experimental techniques in quantum optics at the Institut d'Optique, exploring non-classical properties of light and photon interactions with matter.^[14] He collaborated closely with Cohen-Tannoudji and other researchers, such as Jean Dalibard and Philippe Grangier, on atomic physics projects involving laser-atom interactions and coherent optical effects.^[14]^[15] These efforts laid the groundwork for advanced studies in atom-photon dynamics, with Aspect contributing to early publications on optical pumping and selective excitation processes in atomic systems.^[14] Aspect's role at the Institut d'Optique Graduate School expanded over time, where he conducted research on quantum optical phenomena until the mid-1980s, later serving as deputy director from 1992 to 1994.^[16] In this period, he began supervising theses on topics related to light-matter interactions, mentoring students in experimental setups for quantum optics.^[17] His early publications, such as those on Fourier transform spectroscopy and acousto-optical modulation, demonstrated innovative approaches to probing atomic responses to light fields.^[14]

Later Career Positions

In 1992, Alain Aspect was appointed as a CNRS senior scientist (directeur de recherche) at the Laboratoire Charles Fabry de l'Institut d'Optique, where he established and led the Atom Optics group until 2012.^[9] During this period, he also became a professor at both the Institut d'Optique and the École Polytechnique in Palaiseau, roles that marked his transition to advanced academic leadership in quantum optics education and research.^[9]^[11] Since 2012, Aspect has held the Augustin Fresnel Chair at the Institut d'Optique Graduate School, part of Université Paris-Saclay, while continuing as a professor at the École Polytechnique.^[9]^[18] In this capacity, he has contributed to interdisciplinary teaching and mentoring in quantum physics, fostering collaborations across institutions.^[19] Aspect's institutional leadership extended to emeritus status as a distinguished CNRS scientist, maintaining active affiliations with Université Paris-Saclay and the CNRS as of 2025.^[4]^[6] He has also served as an affiliated professor at ENS Paris-Saclay since 2014, supporting advanced studies in physics.^[6] In recognition of his contributions, Aspect was elected as a corresponding member of the Académie des Sciences in 1995 and became a full member in 2002.^[9] He was a founding member of the Académie des Technologies in 2000, underscoring his influence on scientific policy and technological innovation.^[9] On June 26, 2025, Aspect was elected to the Académie Française, receiving 16 votes in the first round, an honor that highlights his interdisciplinary impact beyond physics into broader French intellectual life.^[20]^[21] This election, to the seat previously held by René de Obaldia, reflects his stature as a Nobel laureate bridging science and humanities.^[20]

Scientific Research

Quantum Entanglement and Bell's Theorem

Alain Aspect's research on quantum entanglement was motivated by John Bell's 1964 theorem, which provided a mathematical framework to test whether quantum mechanics could be explained by local hidden variable theories, as challenged by Einstein, Podolsky, and Rosen in their 1935 paradox. Bell derived inequalities that any local realistic theory must satisfy, but quantum mechanics predicts violations due to entanglement's correlations. Earlier experiments, such as those by John Clauser and Stuart Freedman in 1972, had demonstrated initial violations using entangled photons from calcium atomic cascades, but suffered from loopholes, including low detection efficiency and potential communication between measurement sites (locality loophole). In the early 1980s at the Institut d'Optique in Orsay, Aspect led a series of experiments using entangled photon pairs produced via atomic cascades in calcium atoms excited by two tunable lasers. The photons, emitted in a cascade decay (from ^1D_2 to ^1P_1 to ^1S_0), were spatially separated by 6.5 meters and directed to polarizers at each site. To address the locality loophole, Aspect's 1982 setup incorporated acousto-optic switches—devices using ultrasonic waves in water cells to rapidly redirect photons between two polarizer channels—allowing measurement settings to be chosen randomly while the photons were in flight, preventing causal influence between detectors. Detection relied on photomultiplier tubes with efficiencies around 10-20%, assuming fair sampling of pairs, though later analyses noted this as a remaining loophole closed in subsequent work.^[22] These experiments tested the Clauser-Horne-Shimony-Holt (CHSH) form of Bell's inequality, which for local realism states:

\left| \langle AB \rangle + \langle AB' \rangle + \langle A'B \rangle - \langle A'B' \rangle \right| \leq 2

where \langle AB \rangle denotes the correlation for polarizer settings A and B, and primes indicate alternative settings. Quantum mechanics predicts a maximum violation of $2\sqrt{2} \approx 2.828. Aspect's 1982 results yielded S = 2.697 \pm 0.015, exceeding the classical bound by more than 40 standard deviations in one configuration and over 5 standard deviations in the time-varying analyzer test, confirming quantum predictions with high statistical significance.^[22] The outcomes provided strong evidence for quantum entanglement, ruling out local realistic explanations and supporting the non-local nature of quantum correlations. This challenged Einstein's characterization of entanglement as "spooky action at a distance," affirming that measurements on separated particles instantaneously influence each other, though without violating relativity by transmitting usable information. These findings shifted the debate on quantum foundations from philosophy to experimental physics, paving the way for quantum information technologies.^[22]

Laser Cooling and Quantum Gases

In the mid-1980s, Alain Aspect joined Claude Cohen-Tannoudji's group at the École Normale Supérieure to collaborate on laser cooling techniques for neutral atoms, building on foundational ideas from Steven Chu's work on optical trapping and molasses. This partnership advanced methods to reduce atomic temperatures to microkelvin levels using laser light tuned near atomic resonance frequencies, enabling the study of atomic motion at velocities approaching the single-photon recoil limit. Their efforts contributed to theoretical and experimental refinements in sub-Doppler cooling mechanisms, such as velocity-selective coherent population trapping, which allowed cooling below the conventional Doppler limit.^[23] A key technique developed during this period was optical molasses, where six counterpropagating laser beams create a viscous damping force on atoms via repeated absorption and stimulated emission cycles.^[24] In these setups, atoms like cesium were cooled in a magneto-optical trap before transfer to magnetic traps for further evaporative cooling, followed by time-of-flight expansion to observe momentum distributions. The Doppler cooling limit sets a theoretical minimum temperature of T_D = \frac{\hbar \gamma}{2 k_B}, where \hbar is the reduced Planck's constant, \gamma is the natural linewidth of the atomic transition, and k_B is Boltzmann's constant; for sodium atoms, this yields approximately 240 μK.^[25] Aspect's group demonstrated cooling to near this limit in three dimensions, verifying predictions for two-level atoms and enabling precise control over atomic ensembles.^[25] During the 1990s, Aspect's team at the Institut d'Optique conducted experiments on atom interferometry using laser-cooled cesium atoms, leveraging the coherence of matter waves from cooled samples to measure phase shifts induced by gravitational or inertial forces.^[26] These interferometers, formed by splitting and recombining atomic wave packets with laser pulses, achieved sensitivities for precision measurements of fundamental constants and tests of general relativity, with cesium atoms cooled to below 10 μK via optical molasses and magnetic trapping.^[26] In the late 1990s, Aspect played a pivotal role in achieving Bose-Einstein condensation (BEC) in dilute atomic gases, leading the first realization of a BEC using metastable helium-4 atoms in 2001. Starting from an optical molasses-cooled cloud of approximately 10^8 atoms at 1 mK, the ensemble was compressed magnetically and evaporatively cooled to 0.1 μK, forming a condensate of ~5 × 10^5 atoms with a critical temperature of (4.7 ± 0.5) μK. After time-of-flight expansion, the group observed characteristic interference patterns from multiple independent condensates released from a periodic magnetic trap, revealing high-contrast fringes with visibility up to 80% over distances of 1 mm, demonstrating the macroscopic quantum coherence of the BEC.^[27] These advancements in laser cooling and BEC production have enabled applications in precision measurements, such as atom interferometry for gravimetry and inertial sensing with uncertainties below 10^{-9} g, where g is Earth's gravitational acceleration.^[26] Additionally, the coherent atomic ensembles from Aspect's techniques have facilitated quantum simulation studies, including observations of Anderson localization in expanded BECs subjected to disordered optical potentials, providing insights into quantum transport in one dimension.

Awards and Honors

Major Scientific Awards

In 2005, Alain Aspect received the CNRS Gold Medal, France's highest scientific distinction, awarded by the French National Centre for Scientific Research for his pioneering contributions to quantum optics and atomic physics, including his foundational experiments on quantum entanglement.^[4] Aspect was awarded the Wolf Prize in Physics in 2010, shared with John Clauser and Anton Zeilinger, recognizing their fundamental conceptual and experimental contributions to the foundations of quantum physics, particularly in demonstrating quantum entanglement and non-locality through innovative photon-based tests.^[28] In 2013, he received the Balzan Prize for Quantum Information Processing and Communication, honoring his pioneering experiments from the early 1980s that provided striking confirmation of quantum entanglement predictions, paving the way for advancements in quantum technologies.^[29] The culmination of these recognitions came in 2022, when Aspect shared the Nobel Prize in Physics with Clauser and Zeilinger "for experiments with entangled photons, establishing the violation of Bell inequalities and pioneering quantum information science," as announced by the Royal Swedish Academy of Sciences on October 4, 2022; this award specifically highlighted his 1981–1982 experiments that closed key loopholes in tests of Bell's theorem, confirming the counterintuitive predictions of quantum mechanics.^[30]

Academic Honors and Memberships

Alain Aspect was elected a Foreign Member of the Royal Society in 2015, recognizing his foundational contributions to quantum optics and atomic physics.^[31] In 2014, he was appointed Officer of the Legion of Honour by the French government, an honor reflecting his prominence in the scientific community; this was later elevated to Commander in 2022.^[9] In 2022, he was named an Honorary Member of Optica, the society advancing optics and photonics worldwide.^[15] Aspect has received numerous honorary doctorates from prestigious institutions worldwide, including from Heriot-Watt University in 2008 and the Technion – Israel Institute of Technology in 2011, underscoring his global academic influence.^[9] He was elected a member of the French Academy of Sciences in 2002, following his initial status as a corresponding member in 1995, and in 2025, he joined the Académie Française as the 22nd chair, becoming one of the "Immortels" and highlighting his role in bridging science and French intellectual tradition.^[9]^[32] In 2019, the International Astronomical Union officially named asteroid 33163 after him (discovered in 1998 as 1998 EH), a tribute to his enduring impact on fundamental physics.^[33]

Publications and Influence

Key Publications

Alain Aspect has authored or co-authored over 300 scientific publications as of 2025, accumulating more than 41,000 citations according to his Google Scholar profile.^[17] His works span quantum optics, entanglement, and atomic physics, with several seminal contributions earning thousands of citations individually. One of his influential textbooks is Introduction to Quantum Optics: From the Semi-classical Approach to Quantized Light (2010, Cambridge University Press), co-authored with Gilbert Grynberg and Claude Fabre. This comprehensive volume covers foundational topics in quantum optics, including lasers, spontaneous emission, photon entanglement, and the transition from semi-classical to fully quantized descriptions of light, serving as a standard reference for graduate students and researchers.^[34] It has garnered over 900 citations.^[17] Aspect also contributed to popular science literature with Einstein et les révolutions quantiques (2019, CNRS Éditions), a concise exploration of quantum mechanics' historical development, Einstein's role in the two quantum revolutions, and their philosophical implications. The book elucidates concepts like wave-particle duality and non-locality for a general audience, drawing on Aspect's experimental insights to contextualize quantum foundations.^[35] Among his most cited papers is "Experimental Realization of Einstein-Podolsky-Rosen-Bohm Gedankenexperiment: a New Violation of Bell's Inequalities" (1982, Physical Review Letters 49, 91), co-authored with Philippe Grangier and Gérard Roger. This work reports the first experimental realization of a Bell test using entangled photon pairs, achieving a violation of Bell's inequalities by 5 standard deviations in agreement with quantum mechanics, providing strong evidence against local hidden variable theories.^[36] The paper has been cited over 4,800 times.^[17] In laser cooling, Aspect co-authored the seminal paper "Laser Cooling below the One-Photon Recoil Energy by Velocity-Selective Coherent Population Trapping" (1988, Physical Review Letters 61, 826) with E. Arimondo, R. Kaiser, N. Vansteenkiste, and C. Cohen-Tannoudji. It introduces a sub-Doppler cooling technique that traps atoms in dark states via coherent population trapping, enabling temperatures below the one-photon recoil limit and advancing the field toward Bose-Einstein condensation.^[23] A key contribution to quantum gases is "A Bose-Einstein Condensate of Metastable Atoms" (2001, Science 292, 461), co-authored with Alice Robert, Olivier Sirjean, Antoine Browaeys, Jean-Christophe Poupard, Sebastian Nowak, Denis Boiron, and Christine I. Westbrook. This paper describes the first production of a Bose-Einstein condensate using metastable helium-4 atoms, leveraging evaporative cooling to achieve quantum degeneracy and enabling studies of matter-wave interference in excited states. It has received over 650 citations.^[17]

Scientific Influence and Legacy

Aspect's experimental confirmation of quantum entanglement in the early 1980s played a pivotal role in validating the predictions of quantum mechanics against local realist theories, thereby solidifying the foundations of the field and paving the way for advancements in quantum information science.^[1] His work demonstrated the violation of Bell's inequalities under conditions that closed key loopholes, such as the communication loophole, which influenced subsequent rigorous tests and underscored the non-local nature of quantum correlations.^[37] This validation has directly enabled practical applications, including quantum cryptography protocols like quantum key distribution and the conceptual framework for quantum computing architectures that exploit entanglement for information processing.^[38] Building on Aspect's foundational experiments, post-2015 loophole-free Bell tests by groups worldwide achieved definitive closures of detection and locality loopholes simultaneously, confirming quantum mechanics without residual doubts about hidden variables.^[39] These advancements, which extended Aspect's photon-based approach to more robust setups, have bolstered the development of quantum networks by demonstrating scalable entanglement distribution over distances, essential for secure global communication infrastructures.^[1] Aspect's contributions thus form the experimental bedrock for emerging quantum repeaters and satellite-based entanglement links, as seen in initiatives like China's Micius satellite experiments.^[40] Philosophically, Aspect's results have profoundly shaped debates on the foundations of physics, particularly by empirically refuting local realism—the notion that physical properties exist independently of measurement and influences propagate only at or below light speed.^[41] His experiments provided decisive evidence supporting quantum non-locality, reigniting discussions from the Einstein-Bohr era and influencing interpretations like those emphasizing observer-independent reality versus contextual quantum states.^[42] This impact extends to broader ontological questions in physics, where Aspect's work has been cited in arguments against deterministic hidden variables and in favor of quantum theory's counterintuitive implications for causality.^[43] Aspect's legacy in education is evident through his mentorship of researchers in quantum optics, inspiring a new generation to advance the field, as noted in tributes to his career-spanning influence at institutions like the Institut d'Optique.^[7] His co-authorship of influential textbooks on quantum optics has further disseminated foundational concepts to students worldwide.^[44] In 2025, Aspect continued active engagement by participating in the Helgoland symposium in June, where he joined other Nobel laureates to discuss quantum foundations and applications on the island commemorating Heisenberg's 1925 breakthrough.^[45] Looking ahead, Aspect's pioneering entanglement research underpins major European initiatives like the EU Quantum Flagship, launched in 2018 with a €1 billion budget and expanded through the 2025 Quantum Europe Strategy, which includes additional investments such as €50 million for quantum chips pilot lines and aims to position Europe as a global leader in quantum technologies for computing, sensing, and communication.^[46] His work informs flagship projects on quantum internet prototypes and secure networks, ensuring sustained impact on policy-driven innovation in quantum-safe cryptography and simulation tools.^[47]

References

[1]
Alain Aspect – Facts – 2022 - NobelPrize.org
Alain Aspect conducted groundbreaking experiments using entangled light particles, photons. These and other experiments confirm that quantum mechanics is ...
[2]
CV - Alain Aspect - Lindau Mediatheque
Alain Aspect was born on 15 June 1947 in Agen, France. He studied physics at the École Normale Supérieure de Cachan (now ENS Paris-Saclay) and at the Universit ...Missing: career | Show results with:career<|control11|><|separator|>
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Press release: The Nobel Prize in Physics 2022 - NobelPrize.org
Oct 4, 2022 · Alain Aspect, born 1947 in Agen, France. PhD 1983 from Paris-Sud University, Orsay, France. Professor at Institut d'Optique Graduate School – ...
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Alain Aspect | CNRS
Oct 4, 2022 · He is a graduate of the ENS (École normale supérieure – class of 1965 at the ENSET), and has served as a CNRS research professor since 1992. He ...Missing: career | Show results with:career
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Alain Aspect | Optica
On 4 October 2022, Aspect was awarded the Nobel Prize in Physics, along with John F.Clauser and Anton Zeilinger, for experiments with entangled photons, ...
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Alain Aspect, Nobel-winning father of quantum entanglement
Oct 4, 2022 · He came second in the French education physics exam, and is currently professor at Paris-Saclay University and at Ecole Polytechnique. Now 74, ...
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Transcript from an interview with Alain Aspect - NobelPrize.org
Alain Aspect: I think really since elementary school, I was attracted towards scientific “things”, because at elementary school it's very simple. Anytime the ...Missing: influences Agen
[8]
[PDF] CV d'Alain Aspect, membre de l'Académie des sciences
Jul 30, 2019 · Born June15, 1947 in Agen (Lot et Garonne, France). Married (Annie Aspect), two children. Office. Institut d'optique, 2 avenue Augustin Fresnel ...Missing: son childhood
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Alain ASPECT - ENS-PARIS-SACLAY
Alain Aspect étudie de 1965 à 1969 à l'ENS Cachan, aujourd'hui ENS Paris-Saclay et à la faculté des sciences d'Orsay. Il prépare alors le diplôme de docteur de ...Missing: degrees PhD Sud teaching Cameroon Yaoundé
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Aspect Alain - Teaching & Learning Center - École polytechnique
Born in 1947, Alain Aspect is an alumni of ENS Cachan and Université d'Orsay. He has held positions at Institut d'Optique, ENS Yaoundé (Cameroon), ENS Cachan, ...Missing: career | Show results with:career
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Alain Aspect. Trois tests expérimentaux des inégalités de Bell par ... Université Paris Sud - Paris XI, 1983. Français. ⟨NNT : ⟩. ⟨tel-00011844⟩ ...
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Jan 9, 2023 · When I came back from Cameroon in 1974, I obtained a permanent position as maître assistant at Ecole Normale Supérieure de Cachan. It was a ...
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None
### Summary of Alain Aspect's Early Professional Career (1970s to Early 1980s)
[14]
Alain Aspect named Optica Honorary Member
Feb 23, 2022 · The following year, he began a collaboration with Claude Cohen-Tannoudji on the laser-cooling of atoms in the regime of single-photon recoil.
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Seminar by Alain ASPECT, Nobel Prize in Physics
Mar 6, 2023 · Alain Aspect studied from 1965 to 1969 at ENS Cachan, now ENS Paris-Saclay, and at the Faculty of Science in Orsay. He then prepared the ...Missing: early | Show results with:early<|control11|><|separator|>
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aspect alain
- **Total Publications**: 20 (articles 1–20 listed).
[17]
https://scholar.google.com/citations?user=-6d6dV4AAAAJ&hl=en
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The 2022 Nobel prize in physics awarded to Alain Aspect, professor ...
Oct 4, 2022 · Born in 1947, Alain Aspect is an alumnus of École Normale Supérieure (ENS) Cachan and the Université Paris-Saclay. He has held positions at the ...Missing: early career
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Jul 17, 2025 · Alain Aspect is also a member of the Académie des Sciences and the Académie des Technologies, and a foreign member of the Académie Royale des ...
[20]
Élection de M. Alain ASPECT (F22) - Académie française |
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Jun 26, 2025 · Alain Aspect, director of research emeritus at the CNRS Charles Fabry Laboratory(CNRS/ Institut d'optique Graduate School), winner of the 2022 Nobel Prize in ...Missing: Laboratoire 1994–
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[PDF] Bell's Theorem and its First Experimental Tests (1965-1982) - arXiv
It roughly deals with the period between 1976 and 1982, when Alain Aspect announced the results of his last experiments. Aspect's experiments resonated with ...Missing: 3ème | Show results with:3ème<|separator|>
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Laser Cooling below the One-Photon Recoil Energy by Velocity ...
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[24]
Optical molasses - Optica Publishing Group
Dalibard, Laboratoire de Spectroscopie Hertzienne de l'Ecole Normale Supérieure 24 rue Lhomond, F-75231 Paris Cedex 05, France (personal communication);D.<|separator|>
[25]
Three-dimensional laser cooling at the Doppler limit | Phys. Rev. A
Dec 1, 2014 · In this paper we have reported on the experimental observation of three-dimensional laser cooling at the Doppler limit. ... Aspect, J. Dalibard, A ...
[26]
[PDF] Atom interferometry - HAL
May 5, 2006 · Abstract. In this paper, we present a brief overview of atom interferometry. This field of research has developed very rapidly since 1991.
[27]
Alain Aspect - Wolf Foundation
Alain Aspect. Affiliation at the time of the award: Institut d'Optique ... Mordehai (Moty) Heiblum. Wolf Prize Laureate in Physics 2025. Chien-Shiung Wu ...Missing: ongoing | Show results with:ongoing
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Alain Aspect is widely recognized for his experimental test of Bell's inequalities, carried out in 1981-1982 at the Institut d'Optique in Orsay, France.
[29]
The Nobel Prize in Physics 2022 - NobelPrize.org
The Nobel Prize in Physics 2022 was awarded jointly to Alain Aspect, John F. Clauser and Anton Zeilinger for experiments with entangled photons.
[30]
Professor Alain Aspect FRS - Fellow Detail Page | Royal Society
After his contribution to the development of laser cooling of atoms, with Claude Cohen-Tannoudji (1985-1992), he has switched to atom optics, where the ...
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Alain ASPECT Élu en 2025 au fauteuil 22 - Académie française |
Élu à l'Académie française, le 26 juin 2025, au fauteuil de René de Obaldia (22e fauteuil). OUVRAGES DE VULGARISATION SCIENTIFIQUE. - « ...
[32]
Visit by Alain Aspect, Nobel Prize winner in Physics - Institut Neel %
On Friday, October 3, 2025, the Néel Institute had the honor of welcoming Alain Aspect, winner of the 2022 Nobel Prize in Physics for his work on quantum ...
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the two quantum revolutions - Conference by Alain Aspect - DQMP
Oct 2, 2025 · From concepts to applications: the two quantum revolutions – Conference by Alain Aspect. Published on October 2, 2025. Tap to unmute. Your ...
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Introduction to Quantum Optics
Introduction to Quantum Optics from the semi-classical approach to quantized light. Search within full text.
[36]
Einstein et les révolutions quantiques - CNRS Editions
Nov 21, 2019 · Einstein et les révolutions quantiques. Physique et astrophysique. 9,00€ Acheter l'ouvrage (Disponible en ...
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Experimental Realization of Einstein-Podolsky-Rosen-Bohm ...
Jul 12, 1982 · The present results, in excellent agreement with the quantum mechanical predictions, lead to the greatest violation of generalized Bell's inequalities ever ...
[38]
Alain Aspect's experiments on Bell's theorem: a turning point in the ...
Dec 21, 2022 · Aspect's seminal experiments, the results of which were published in 1981–1982, and his doctoral thesis presented in Paris in 1983, lie midway ...
[39]
Physics Nobel Prize Winner Alain Aspect Talks Quantum Computing
May 9, 2023 · One of his most significant contributions was his work on quantum entanglement, by which two particles can become linked together in such a way ...
[40]
Quantum 'spookiness' passes toughest test yet - Nature
Aug 27, 2015 · The most rigorous test of quantum theory ever carried out has confirmed that the 'spooky action at a distance' that the German physicist famously hated.
[41]
Physics Nobel honors foundational quantum entanglement ...
Dec 1, 2022 · Aspect didn't fully close the locality loophole because the measurement settings weren't random. The two polarizers were fixed, and the switches ...
[42]
The Universe Is Not Locally Real. Here's How Physicists Proved It
Oct 6, 2022 · The evidence shows that objects are not influenced solely by their surroundings, and they may also lack definite properties prior to measurement.Missing: impact | Show results with:impact
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2017 Andrew Carnegie Lecture: Professor Alain Aspect - YouTube
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[44]
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Jul 21, 2004 · Beginning in the 1970s, there has been a series of experiments of increasing sophistication to test whether the Bell inequalities are satisfied.
[45]
[PDF] Introduction to Quantum Optics From the Semi-classical Approach to ...
He was a pioneer in many domains, including atomic spectroscopy, nonlinear optics and laser- cooled atoms in optical lattices. Alain Aspect ... Thesis ...
[46]
Quartet of Nobel laureates sign Helgoland's 'gold book'
Jun 10, 2025 · Photo of four Nobel laureates on stage at Helgoland 2025. Signing ceremony (From left to right) Anton Zeilinger, Alain Aspect, Serge Haroche and ...
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Nobel Prize for quantum technology trailblazers
The Quantum Flagship extends its warmest congratulations to Profs. Alain Aspect, John F. Clauser and Anton Zeilinger for being awarded the 2022 Nobel Prize ...Missing: initiatives | Show results with:initiatives
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Commission launches Quantum Europe Strategy to turn EU into a ...
Jul 8, 2025 · The European Commission launched a new strategy on 2 July 2025, aiming to secure European leadership in quantum technology - now, and in the future.