Quantum interferometric optical lithography: exploiting entanglement to beat the diffraction limit
about
Quantum computing over the rainbowResonant Interferometric Lithography beyond the Diffraction LimitCreation of maximally entangled photon-number states using optical fiber multiports“Two-Photon” Coincidence Imaging with a Classical SourceEfficient Generation of Large Number-Path Entanglement Using Only Linear Optics and Feed-ForwardQuantum Lithography beyond the Diffraction Limit via Rabi OscillationsTime-Reversal and Super-Resolving Phase MeasurementsPhotonic quantum information: science and technologyTunable quantum interference in a 3D integrated circuit.Diffraction interference induced superfocusing in nonlinear Talbot effectFlexible Two-Photon Interference Fringes with Thermal LightHigh visibility first-order subwavelength interference based on light pulse storage via electromagnetically induced transparencyUltrafast double-quantum-coherence spectroscopy of excitons with entangled photons.Quantum interferometry with three-dimensional geometry.Physics. Let quantum mechanics improve your images.An entanglement-enhanced microscope.Sub-Rayleigh imaging via speckle illumination.Characterization of two distant double-slits by chaotic light second-order interference.Active control on high-order coherence and statistic characterization on random phase fluctuation of two classical point sources.Mode engineering for realistic quantum-enhanced interferometry.Experimental controlled-NOT gate simulation with thermal lightOptimal multi-photon phase sensing with a single interference fringe.Two-photon interference of temporally separated photons.Fast and simple scheme for generating NOON states of photons in circuit QED.Super sub-wavelength patterns in photon coincidence detection.Cavity-enhanced coherent light scattering from a quantum dot.III-V quantum light source and cavity-QED on silicon.Detection-dependent six-photon Holland-Burnett state interference.Two-photon spectroscopy of excitons with entangled photons.Sequential Path Entanglement for Quantum Metrology.Young's double-slit interference with two-color biphotons.Quantum interference beyond the fringe.Multiphoton Interference in Quantum Fourier Transform Circuits and Applications to Quantum Metrology.Hierarchy of Steering Criteria Based on Moments for All Bipartite Quantum Systems.Optical quantum computing.Ultimate Precision Bound of Quantum and Subwavelength Imaging.Quantum lithography with classical light.Wolf equations for two-photon light.On-chip steering of entangled photons in nonlinear photonic crystals.Ghost imaging with incoherent and partially coherent light radiation.
P2860
Q27335483-725FF92A-DEDA-4FD1-8E7D-F7BBE5976603Q27338880-71CD7308-092E-4E00-9AEB-CA03FFF31699Q27348712-9E54D67C-CBA8-4AC0-803A-529BF999996DQ27348794-C3E4C688-C67F-4580-A726-B22CE0C5E0FDQ27349933-CEE3376F-11F4-4AB2-8031-4F524609DCB1Q27447773-87AC73AB-97F4-454B-8F18-64B7623C4157Q27455825-906F3AC8-B2EB-448A-B1A8-7054A8F2714AQ28079093-5CA8FCF8-284B-4D8A-9352-B494211F8F03Q30358760-E87E74A0-9E07-4121-8446-DC92C66A9A13Q30431089-B7CA1B35-E48C-4EE2-9E49-F676F92F3464Q33694572-BED1902A-F613-40E1-9C53-4A90CD169717Q33725841-4A3B6AF2-D24E-4575-B344-73349D70368DQ33976503-B41A8870-99D5-497D-859B-A26F9F0E3949Q34488315-603828AF-EA57-4BB7-BD4F-FD81BE99A395Q34800471-D184B7B4-BA86-4BBA-9212-5841E1CDF466Q34985365-592CB509-FBF2-432C-A522-13AB3C61321EQ36198486-CE4F34D1-D25C-4FC3-9E3B-A77059753143Q36378288-A0E4EE7C-12F9-4E87-B309-A5CEF87D33F2Q36735788-15CA254B-B845-46CE-A104-F4E8C046A3D3Q36865897-DC904F47-DBF1-4ED4-AD25-84FBC2A6D595Q37112812-D9830427-4DB5-4DC7-A152-D16E81DC4A81Q37197438-688E33C0-676B-49E8-86DC-88DAFB20EC91Q37314787-7685C3D6-0229-4C97-8504-33B9A10EAB49Q37522551-C93F3774-8E7E-4820-B633-BC33F0D71DF1Q37587461-B67E0FE5-E6A3-43F5-B0BA-4FA0900BF83AQ40668660-32CBFED1-71DC-433B-94DB-82E6859B1C7EQ41980332-5A8E45C3-9913-4215-A5A3-0B82CBD8F467Q41999491-A4629C10-E054-40A6-9027-8B90D4DB131BQ45936243-14691966-2E6F-4627-96F0-28E4E1281C7DQ46465997-5C8DA49B-F20A-4A24-A11E-2BB9EF9CA32FQ47100376-9C5ACB8F-20BA-4CDE-A9DC-7FD8795A169AQ49692785-0274F164-6861-4173-B425-084EC9A04D4EQ49790050-A596CA85-38A1-4CBE-B22A-A345DB122C27Q50761209-CB2056A4-8E77-4AA0-869F-2F526F0E8F1EQ50848060-072F9D00-34F5-4F2A-BD2A-E48A734383C3Q51098583-6E251864-727C-4508-85F7-334D50D934C2Q51197983-2E05CB58-E5D0-40AE-994B-9BD6F5B8F26EQ51374505-F416ACC0-41BA-48EA-8D66-C7A392395A45Q51546478-7C5FDFA1-42BA-40FD-9A36-29C0ED14906EQ51967164-3B6F9F15-E6A7-4A17-9C31-A579A6152F65
P2860
Quantum interferometric optical lithography: exploiting entanglement to beat the diffraction limit
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
Quantum interferometric optica ...... to beat the diffraction limit
@en
Quantum interferometric optica ...... to beat the diffraction limit
@nl
type
label
Quantum interferometric optica ...... to beat the diffraction limit
@en
Quantum interferometric optica ...... to beat the diffraction limit
@nl
prefLabel
Quantum interferometric optica ...... to beat the diffraction limit
@en
Quantum interferometric optica ...... to beat the diffraction limit
@nl
P2093
P2860
P1476
Quantum interferometric optica ...... to beat the diffraction limit
@en
P2093
P2860
P304
P356
10.1103/PHYSREVLETT.85.2733
P407
P577
2000-09-01T00:00:00Z
P5875
P698
P818
quant-ph/9912052