Charles Hard Townes Medal
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Charles Hard Townes Medal
Presented to an individual or a group for outstanding experimental or theoretical work, discovery or invention in the field of quantum electronics.
The medal was established in 1980 to honor Charles Hard Townes, whose pioneering contributions to masers and lasers led to the development of the field of quantum electronics. It is endowed by Bell Laboratories, Hewlett-Packard, The Perkin Fund, and students and colleagues of Charles Townes.
Winners
2024
For his many fundamental contributions to quantum optics, quantum information processing, and quantum circuits, and for the development of key quantum software tools
2023
For ground-breaking work bringing optical frequency combs to the quantum world and developing innovative applications spanning several fields, including coherent control, generation and line-by-line manipulation of frequency combs, and ultrabroadband radio-frequency photonics
2022
For discoveries in theoretical quantum optics especially vacuum induced coherences, photon added coherent states, non-classical cat states for qubits via engineered many body interactions, and transparency in optomechanical systems.
2021
For his pioneering theoretical and experimental contributions to quantum nonlinear optics and quantum information science and technology, and for the development and application of nanoscale quantum systems for sensing.
2020
For seminal contributions in broad and novel plasma physics and laser-based accelerator physics, introducing the concept of Laser Wakefield Acceleration
2019
For seminal contributions to chip-based nonlinear photonics, nonlinear optics in photonic crystal fibers, and nonlinear propagation of ultrashort laser pulses
2018
For advances in quantum-limited precision measurement in the Advanced LIGO detectors, leading to the first direct detection of gravitational waves
2017
For pioneering breakthroughs in the field of solid-state lasers by the invention of and fundamental contributions to thin disk lasers
2016
For fundamental contributions to the field of nonlinear optics, including the development of methods for controlling the velocity of light, of quantum imaging methods, and of composite nonlinear optical materials
2015
For seminal contributions in the fields of octave-spanning lasers, frequency comb technology, and high repetition-rate ultrafast semiconductor disc lasers
2014
For seminal contributions to the science and applications of ultrafast optics and ultrastable narrow-linewidth lasers
2013
For seminal contributions to solid state lasers, in particular the growth, development, and fundamental characterization of new laser materials based on laser active transition metal and rare earth ions
2012
For breakthroughs in fundamental quantum optics, based on invention and/or development of experimental methods and techniques, and leading to groundbreaking applications in quantum information
2011
For pioneering breakthroughs in the science and technology of ultrashort optical pulses including generation, measurement and the development of practical sources for applications in photophysics, photochemistry, photomedicine, engineering and communications
2010
For his seminal contribution to electromagnetically induced transparency and pioneering work on quantum information processing with quantum dots
2009
For ground-breaking applications of high-intensity lasers to precision micromachining, eye surgery and relativistic light-matter interactions
2008
For contributions to the discovery and investigation of supercontinuum generation and the development of tetravalent chromium-based tunable solid state lasers
2007
For pioneering experiments in cavity quantum electrodynamics, starting with the observation of superradiance, leading to the twophoton maser, non-destructive measurements of photons, and decoherence of Schrödinger cats
2006
For pioneering work on ultrashort laser pulses and solid state lasers, and for the invention of the hollow-fiber compressor, leading to advances in extreme nonlinear optics and attosecond science
2005
For key contributions to the understanding of the physics of atoms and molecules in intense laser fields and the application of these ideas to ultra-fast measurement techniques
2004
For his many outstanding, pioneering and sustained contributions to ultrafast science and technology, and fundamental nonlinear optics
2003
For seminal contributions to the development of coherent light sources and for leadership within the worldwide optics community
2002
For the development of ultra short lasers from the near-infrared to x-rays, and their application to condensed-matter problems in chemistry, physics, and biology
2001
For many theoretical and experimental contributions to electro-optics and magneto-optics, including the invention and application of a direct method for measuring molecular electric quadruple moments
2000
For his outstanding contributions to quantum optics, characterized by originality and diversity, involving the interplay of theory and elegant experiments to elucidate fundamental problems of coherent optical transients, using atoms, molecules, solids and trapped ions
1999
For fundamental contributions to the understanding of the optical properties of quantum wells, semiconductor lasers, and advanced photonic technologies
1998
For his role in laying the theoretical foundation for laser science, free-electron lasers, and lasers without inversion
1997
For pioneering ultrafast optics in the 1.5 μm wavelength regime, demonstrating optical soliton propagation in fibers, and developing innovative soliton systems that have set records for high-capacity repeaterless data transmission
1996
For seminal and pioneering advances in the field of nonlinear optics and laser physics
1995
For outstanding leadership and contributions to the field of quantum electronics over the past 40 years, which include pioneering the invention and development of titanium-diffused LiNb03 waveguides and revolutionary innovations in electro-optic modulators
1994
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For his contributions to theoretical optical physics, in particular, his work on coherent pulse propagation and superradiance, atomic radiation theory, cavity quantum electrodynamics, and multiphoton intense field phenomena
1993
For his contributions to optical pumping and his development of the dressed atom method for describing electromagnetic interactions with matter
1992
For his career in quantum electronics, particularly his contributions to semiconducting, light-emitting sources
1991
For his pioneering contributions to solid state lasers and fiber optics, in particular, neodymium-glass and erbium-glass lasers, the first fiber optic laser, and for innovative contributions to fiber optic amplifiers and fiber optic lasers
1990
For his fundamental contributions to the quantum electronics of atoms and molecules
1989
For his pioneering contributions to the fields of nonlinear optics, the physics of dye lasers, and the generation and detection of ultrashort light pulses
1988
For original, creative, experimental, and theoretical work that initiated the study of laser radiation pressure and for continuing exceptional contributions
1987
For his analysis of laser noise, the development of the mode-locked semiconductor laser, and contributions to our understanding of nonlinear waveguide interactions
1985
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For his contributions to the development of techniques for the generation of extreme ultraviolet and soft x-ray radiation
1984
In recognition of independent pioneering efforts and continuing contributions in the field of laser metrology, ultrahigh resolution spectroscopy, and ultrastable laser sources
1984
In recognition of independent pioneering efforts and continuing contributions in the field of laser metrology, ultrahigh resolution spectroscopy, and ultrastable laser sources
1983
For his invention of the Q-switched laser, codiscovery of the Raman laser and explanation of stimulated scattering phenomena, and the theory of optical phase conjugation
1982
For his pioneering contributions to quantum electronics, including the discovery of many gaseous laser systems, particularly to the CO2 laser; his invention and development of the spin-flip Raman laser; his high-resolution studies for pollution detection in the atmosphere; and his contributions to acousto-optic techniques for measuring small optical absorptions
1981
For his contributions to the successful operations of the first quantum-electronics device, the ammonia maser
1981
For his contributions to the successful operations of the first quantum-electronics device, the ammonia maser
* Deceased
