P185
Linear optical quantum computing with photonic qubitsQuantum optics with one or two photonsQuantum optical Fredkin gateMeasurements on trapped laser-cooled ions using quantum computations.Quantum-limited measurements with the atomic force microscope.Reduction in laser-intensity fluctuations by a feedback-controlled output mirror.Noise reduction in a laser by nonlinear damping.A scheme for efficient quantum computation with linear optics.Efficient quantum computing using coherent photon conversion.Quantum technology: the second quantum revolution.Pulsed quantum optomechanics.Destruction of quantum coherence in a nonlinear oscillator via attenuation and amplification.A universal test for gravitational decoherence.Photon statistics of two-mode squeezed states and interference in four-dimensional phase space.Interpretation for a positive P representation.Quantum-mechanical model for continuous position measurements.Daniel Frank Walls FRSNZ. 13 September 1942 — 12 May 1999Integrated quantum photonic sensor based on Hong-Ou-Mandel interference.Dynamical tunnelling of ultracold atoms.Spin Entanglement Witness for Quantum Gravity.Ion trap simulations of quantum fields in an expanding universe.Synchronization in a mechanical resonator array coupled quadratically to a common electromagnetic field mode.Breakdown of the cross-Kerr scheme for photon counting.Synchronization of many nanomechanical resonators coupled via a common cavity field.Decoherence and the conditions for the classical control of quantum systems.Quantum entanglement between a nonlinear nanomechanical resonator and a microwave field.Physics. Quantum measurement and control of single spins in diamond.Universal teleportation with a twistQutrit entanglementMacroscopically distinct quantum-superposition states as a bosonic code for amplitude dampingQuantum computation with optical coherent statesDissipative quantum dynamics in low-energy collisions of complex nucleiDynamical tunneling with ultracold atoms in magnetic microtrapsImproving single-photon sources with Stark tuningExperimental tests of quantum nonlinear dynamics in atom opticsMultiple bifurcations in atom opticsEntangled mechanical cat states via conditional single photon optomechanicsQuantum state preparation of a mechanical resonator using an optomechanical geometric phaseNonlinear quantum metrology using coupled nanomechanical resonatorsUniversal state inversion and concurrence in arbitrary dimensions
P50
Q21563852-F87C6507-36D0-49F5-ADB3-654730464625Q26785486-951FD1D2-0C59-41D7-AF25-53D24EB53FBAQ27339897-A75003AE-003F-4116-BA81-220BF6B20CFBQ31921084-0652A9AC-1D3C-4E10-BE2A-6C144F75D765Q31922868-7F5FA35B-0387-4F46-9C67-7415D8174421Q31925989-54DAD95E-A806-4485-AC02-EB2A76F2A83CQ31926963-ABF319AE-E623-456C-870B-CAE6E451F735Q33945934-D03A3B9F-ADDB-4E7E-8D1B-33707C0BC10DQ34223646-95F9E1B0-C1B4-4797-B025-96F7D7382BE3Q34536775-7208A17D-2383-4FE5-873B-122C8740852BQ35239827-D5A1371C-F03B-466C-BC83-F80E27F34206Q36900365-BF5D3987-41F0-4EF4-8C25-A80F2EF373BEQ37338853-13443536-0B42-45B3-ADE9-34AEC9E07B55Q47344800-E1146D77-7C8F-46D7-9633-CC2B6C2E081EQ47344975-4CB5558D-5389-40EA-AE25-1EDBAF984E16Q47349407-B3D98A20-96BC-4343-8B1A-CF85E335C463Q47485509-BA8829C0-1EFC-47A1-9AE4-7D20E3FDF47BQ47630557-1D88A636-AC94-4296-B9B6-5FD21B2DA3AAQ49167593-1EEB164A-A6C1-4A2B-96B6-F2ADC2D8457DQ49496097-64F777EB-8D92-4553-9FCA-6568050E82BCQ50483447-DAB71710-C5EB-4091-83BB-589B01CA91F4Q51067614-AB54DB12-32B4-45AC-9D48-5C3D269F5528Q51256285-7E856318-0EDC-4059-AFA0-E8D06F72184BQ51319569-A8EE5E5E-EDF1-4D0F-B945-12EE2C143862Q51331116-A4F13103-3B41-428C-A364-224CB797ECF5Q51551111-FFEC4440-5E1B-47BE-8C17-6259B6434CDEQ51630663-425A1128-4796-481A-8D41-95EB39194931Q52073060-A00C05A6-9767-4973-94F9-CF9B09D46B77Q56005236-DAF8961F-2041-44EA-B450-880C870183B9Q56443850-87EBD5D1-3B47-4CB6-8D9B-37CBE8C24D0BQ57075156-FEE8F97E-4382-4FB8-B6FE-8052D44CF258Q57677249-81E2FBCD-FC78-4D9F-BA68-5A39A0B0B088Q57697970-05F64164-245E-4739-869B-75CE17FB3C25Q57698219-DF8475EB-B2D2-40ED-8282-F45164D99DBBQ57698553-D84817F6-4F66-435E-BEF1-5F084051D26DQ57698626-AD014D1D-F1EE-4EA6-A5EE-C423F9DEFFC4Q57703321-48AF5BC0-F7B2-4759-89C7-606DC76FB0C6Q57703337-A8872E50-BA69-467F-A569-4FA353FF2109Q57741209-03D256FD-6993-4734-B612-1341651BE5B4Q57741256-282004DC-BBC1-4532-A495-9D732F12D462
P50
description
fisico australiano
@it
fisikari australiarra
@eu
físic australià
@ca
físico australiano
@es
físico australiano
@gl
físico australiano
@pt
físicu australianu
@ast
physicien australien
@fr
theoretical quantum physicist
@en
فيزيائي أسترالي
@ar
name
Gerard J. Milburn
@af
Gerard J. Milburn
@an
Gerard J. Milburn
@ast
Gerard J. Milburn
@bar
Gerard J. Milburn
@br
Gerard J. Milburn
@ca
Gerard J. Milburn
@co
Gerard J. Milburn
@cs
Gerard J. Milburn
@cy
Gerard J. Milburn
@da
type
label
Gerard J. Milburn
@af
Gerard J. Milburn
@an
Gerard J. Milburn
@ast
Gerard J. Milburn
@bar
Gerard J. Milburn
@br
Gerard J. Milburn
@ca
Gerard J. Milburn
@co
Gerard J. Milburn
@cs
Gerard J. Milburn
@cy
Gerard J. Milburn
@da
altLabel
Gerard James Milburn
@en
Gerard Milburn
@en
prefLabel
Gerard J. Milburn
@af
Gerard J. Milburn
@an
Gerard J. Milburn
@ast
Gerard J. Milburn
@bar
Gerard J. Milburn
@br
Gerard J. Milburn
@ca
Gerard J. Milburn
@co
Gerard J. Milburn
@cs
Gerard J. Milburn
@cy
Gerard J. Milburn
@da