Publications

2024

• Noiseless loss supression for entanglement distribution
  C.M. Nunn, D.E. Jones, T.B. Pittman, and B.T. Kirby
  arXiv:2405.00510

 

2023

• Experimental storage of photonic polarization entanglement in a broadband loop-based quantum memory
  C.J. Evans, C.M. Nunn, S.W.L Cheng, J.D. Franson, and T.B. Pittman
  Phys. Rev. A 108, L050601 (2023)
• Transforming photon statistics through zero-photon subtraction
  C.M. Nunn, S.U. Shringarpure, and T.B. Pittman
  Phys. Rev. A 107, 043711 (2023)

 

2022

• Inhibiting phase drift in multi-atom clocks using the quantum Zeno effect
  S.U. Shringarpure and J.D. Franson
  arXiv: 2208.06301
• Experimental test of the third quantization of the electromagnetic field
  J.D. Franson
  Phys. Rev. A 106, 013713 (2022)
• Modifying quantum optical states by zero-photon subtraction
  C.M. Nunn,  J.D. Franson, and T.B. Pittman
  Phys. Rev. A 105, 033702 (2022).
• Coherence of quantum states after noiseless attenuation
  S.U. Shringarpure, C.M. Nunn, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 105, 013704 (2022)

 

2021

• Third quantization of the electromagnetic field
  J.D. Franson
  Phys. Rev. A 104, 06372 (2021)
• Heralding on the detection of zero photons
  C.M. Nunn, J.D. Franson, and T.B. Pittman
  Phys. Rev. A 104, 033717 (2021)
• Error sources in heralded quantum Zeno gates
  I.C. Nodurft and J.D. Franson
  arXiv:2105.13853
• Destructive controlled-phase gate using linear optics
  S.U. Shringarpure and J.D. Franson
  Sci. Rep. 11, 22067 (2021)

 

2020

• Violating Bell’s inequality using a number state and a beam splitter
  S.U. Shringarpure and J.D. Franson
  Phys. Rev. A 102, 023719 (2020).
• Maximizing optical production of metastable xenon
  H.P. Lamsal, J.D. Franson, and T.B. Pittman
  Opt. Express 28, 24079 (2020)
• Nonlocal dispersion cancellation for three or more photons
  I.C. Nodurft, S.U. Shringarpure, B.T. Kirby, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 102, 013713 (2020).

 

2019

• Velocity-dependent optical forces and Maxwell’s demon
  J.D. Franson
  Sci. Rep. 9, 13798 (2019)
• Generating photon-added states without adding a photon
  S.U. Shringarpure and J.D. Franson
  Phys. Rev. A 100, 043802 (2019)
• Transmission characteristics of optical nanofibers in metastable xenon
  H.P. Lamsal, J.D. Franson, and T.B. Pittman
  Appl. Optics 58, 6470 (2019)
• Compensation of polarization dependent loss using noiseless amplification and attenuation
  R.A. Brewster, B.T. Kirby, J.D. Franson, and M. Brodsky
  Phys. Rev. A 100, 033811 (2019)
• Optical attenuation without absorption
  I.C. Noduft, R.A. Brewster, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 100, 013850 (2019)

 

2018

• Limitations on the use of the Heisenberg picture
  J.D. Franson and R.A. Brewster
  arXiv:1811.06517
• Reduced decoherence using squeezing, amplification, and anti-squeezing
  R.A. Brewster, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 98, 033818 (2018)
• Effects of entanglement in an ideal optical amplifier
  J.D. Franson and R.A. Brewster
  Phys. Lett. A 382, 887 (2018)
• Generalized delta functions and their use in quantum optics
  R.A. Brewster and J.D. Franson
  J. Math Phys. 59, 012102 (2018)

 

2017

• Noiseless attenuation using an optical parametric amplifier
  R.A. Brewster, I.C. Nodurft, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 96, 042307 (2017)

 

2016

• Collective excitations using a room-temperature gas of 3-level atoms in a cavity
  G.T. Hickman
  arXiv:1609.02876
• Optically enhanced production of metasable xenon
  G.T. Hickman, J.D. Franson, and T.B. Pittman
  Opt. Lett. 41, 4372 (2016)
• Viewpoint: Classical simulation of quantum systems?
  J.D. Franson
  Physics 9, 66 (2016)
• Nanofiber-segment ring resonator
  D.E. Jones, G.T. Hickman,  J.D. Franson, and T.B. Pittman
  Opt. Lett. 41, 3683 (2016)

 

2015

• Low-power cross-phase modulation in a metastable xenon-filled cavity for quantum information applications
  G.T. Hickman, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 92, 053808 (2015)
• Ladder-type electromagnetically induced transparency using nanofiber-guided light in a warm atomic vapor
  D.E. Jones, J.D. Franson, and T.B. Pittman
  Phys. Rev. A 92, 043806 (2015)
• Feasibility of single-photon cross-phase modulation using metastable xenon in a high finesse cavity
  B.T. Kirby, G.T. Hickman, T.B. Pittman, and J.D. Franson
  Opt. Commun. 337, 57 (2015)
• Origin of Quantum Noise and Decoherence in Distributed Amplifiers
  J.D. Franson and B.T. Kirby
  Phys. Rev. A 92, 053825 (2015).

 

2014

• Apparent Correction to the Speed of Light in a Gravitational Potential
  J.D. Franson
  New J. Phys. 16, 065008 (2014)

• Nonlinear optics at ultra-low power levels using metastable xenon in a high-finesse optical cavity
  G.T. Hickman, T.B. Pittman, and J.D. Franson
  Opt. Express 22, 22882 (2014)

• Saturation of atomic transitions using sub-wavelength diameter tapered optical fibers in rubidium vapor
  D.E. Jones, J.D. Franson, and T.B. Pittman
   J. Opt. Soc. Am. B 31, 1997 (2014)

• Entangled coherent state interferometry over long distances using state discrimination
  B.T. Kirby, and J.D. Franson
  Phys. Rev A. 89, 033861 (2014)

 

2013

• Viewpoint: It’s a good time for time-bin qubits
  T.B. Pittman
  Physics 6, 110 (2013)

• Ultralow-power nonlinear optics using tapered optical fibers in metastable xenon
  T.B. Pittman, D.E. Jones, and J.D. Franson
  Phys. Rev. A 88, 053804 (2013)

• Nonlocal inteferometry using macroscopic entangled states and weak nonlinearities
  B.T. Kirby and J.D. Franson
  Phys. Rev. A 87, 053822 (2013)
• Transmission degradation and preservation for tapered optical fibers in rubidium vapor
  M.M. Lai , J.D. Franson, and T.B. Pittman
  Appl. Optics 52, 2595 (2013)
• Perspectives: Beating Classical Computing without a Quantum Computer
  J.D. Franson
  Science 339, 767 (2013)
• All-optical switching demonstration using two-photon absorption and the classical Zeno effect
  S.M. Hendrickson, C.N. Weiler, R.M. Camacho, P.T. Rakich, A.I. Young, M.J. Shaw, T.B. Pittman, J.D. Franson , and B.C. Jacobs
  Phys. Rev. A 87, 023808 (2013)

 

2012

• Time-bin entangled photon holes
  J. Liang, J.D. Franson, and T.B. Pittman
  Phys. Rev. A 86, 053831 (2012)
• Mathematical constraint on functions with continuous second partial derivatives
  J.D. Franson
  J. Phys. A: Math. Theory 45, 045202 (2012)

 

2011

• Theoretical comparison of quantum Zeno gates and logic gates based on the cross-Kerr nonlinearity
  Hao You and J.D. Franson
  Quant. Inf. Proc. 11, 1627 (2011)
• Entanglement from longitudinal and scalar photons 
  J.D. Franson
  Phys. Rev. A 84, 033809 (2011)
• Sensitivity of entangled photon holes to loss and amplification 
  J.D. Franson
  Phys. Rev. A 84, 043831 (2011)
• The role of pump coherence in two-photon interferometry 
  J. Liang, S.M. Hendrickson, and T.B. Pittman
  Phys. Rev. A 83, 033812 (2011)

 

2010

• Pairs Rule Quantum Interference
  J.D. Franson
  Science 329, 396-397 (2010)
• Observation of two-photon absorption at low power levels using tapered optical fibers in rubidium vapor
  S.M. Hendrickson, M.M. Lai, T.B. Pittman, and J.D. Franson
  Phys. Rev. Lett. 105, 173602 (2010)

• Lack of Dispersion Cancellation with Classical Phase-Sensitive Light
  J.D. Franson
  Phys. Rev. A 81, 023825 (2010)
• Compensating for Beamsplitter Asymmetries in Quantum Interference Experiments
  J.L. Liang and T.B. Pittman
  J. Opt. Soc. Am. B 27, 350 (2010)

 

2009

• Nonclassical Nature of Dispersion Cancellation and Nonlocal Interferometry
  J.D. Franson
  Phys. Rev. A 80, 032119 (2009)
• Enhanced Two-Photon Absorption Using Entangled States and Small Mode Volumes
  Hao You, S.M. Hendrickson, and J.D. Franson
  Phys. Rev. A 80, 043823(2009)
• All-Optical Switch using the Quantum Zeno Effect and Two-Photon Absorption
  B.C. Jacobs and J.D. Franson
  Phys. Rev. A 79, 063830 (2009)
• Role of Post-Selection in Two-Photon Interferometer Tests of Bell’s Inequalities
  J.D. Franson
  quant-ph 0809.5038 (2009)
• Nonlinear Transmission through a Tapered Fiber in Rubidium Vapor
  S.M. Hendrickson, T.B Pittman, and J.D. Franson
  J. Opt. Soc. Am. B 26, 267 (2009)

 

2008

• Analysis of Enhanced Two-Photon Absorption in Tapered Optical Fibers
  Hao You, S.M. Hendrickson, and J.D. Franson
  Phys. Rev A 78, 053803 (2008)
• Generation of Entanglement Outside of the Light Cone
  J.D. Franson
  J. Mod. Opt. 55, 2117 (2008)

 

2007

• Development of a Parametric Down-Conversion Source for Two-Photon Absoption Experiments 
  T.B. Pittman 
  Proceedings of “Quant. Comm. and Quant. Imaging V”, SPIE 6710, 67100B (2007)
• Microcavities using Holey Fibers 
  S.M. Hendrickson, T.B. Pittman, and J.D. Franson 
  IEEE J. Lightwave Tech. 25, 3068 (2007)
• Investigation of a single-photon source based on quantum interference 
  T.B. Pittman, B.C. Jacobs, and J.D. Franson 
  New J. Phys. 9, 195 (2007)
• Zeno logic gates using microcavities 
  J.D. Franson, B.C. Jacobs, and T.B. Pittman 
  J. Opt. Soc. Am. B 24, 209 (2007)

 

2006

• Optical transparency using interference between two modes of a cavity 
  J.D. Franson and S.M. Hendrickson 
  Phys. Rev. A 74, 053817 (2006)
• Generation of entangled photon holes using quantum interference
  T.B. Pittman and J.D. Franson
  Phys. Rev. A 74, 041801(R) (2006)
• Single-photon source using laser pulses and two-photon absorption 
  B.C. Jacobs, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 74, 010303(R) (2006)
• Entangled photon holes
  J.D. Franson
  Phys. Rev. Lett. 96, 090402 (2006)

 

2005

• Demonstration of quantum error correction using linear optics
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Phys. Rev. A 71, 052332 (2005)
• Heralding single photons from pulsed parametric down-conversion
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Opt. Comm. 246, 545-550 (2005)
• Experimental demonstration of a quantum circuit using linear optics gates
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Phys. Rev. A 71, 032307 (2005)

 

2004

• Quantum computing using single photons and the Zeno effect
  J.D. Franson, B.C. Jacobs, and T.B. Pittman
  Phys. Rev. A 70, 062302 (2004)
• Photon exchange interactions and quantum information processing 
  J.D. Franson
  Phys. Rev. A 70, 054301 (2004)
• Quantum computing using linear optics
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Johns Hopkins APL Tech. Digest 25, 84-90 (2004)
• Photon-number-resolving detection using time-multiplexing
  D. Achilles, C. Silberhorn, C. Śliwa, K. Banaszek, I.A. Walmsley, M.J. Fitch, B.C. Jacobs, T.B. Pittman, and J.D. Franson
  Journal of Modern Optics 51, 1499 (2004)
• Generation of entangled ancilla states for use in linear optics quantum computing 
  J.D. Franson, M.M. Donegan, and B.C. Jacobs 
  Phys. Rev. A 69, 052328 (2004)
• Probabilistic quantum encoder for single-photon qubits
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Phys. Rev. A 69, 042306 (2004)

 

2003

• Heralded two-photon entanglement from probabilistic quantum logic operations on multiple parametric down-conversion sources
  T.B. Pittman, M.M. Donegan, M.J. Fitch, B.C. Jacobs, J.D. Franson, H. Lee, P. Kok, and J.P. Dowling
  J. Sel. Topics in Quant. Elec. 9, 1478-1482 (2003)
• Photon-number resolution using time-multiplexed single-photon detector
  M.J. Fitch, B.C. Jacobs, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 68, 043814 (2003)
• Experimental Progress in Linear Optics Quantum Computing
  J.D. Franson, M.M. Donegan, M.J. Fitch, B.C. Jacobs, and T.B. Pittman
  Quantum Information and Computation 3, 553-562 (2003)
• Experimental controlled-NOT gate for single photons in the coincidence basis
  T.B. Pittman, M.J. Fitch, B.C. Jacobs, and J.D. Franson
  Phys. Rev. A 68, 032316 (2003)
• Violation of Bell’s inequality with photons from independent sources
  T.B. Pittman and J.D. Franson
  Phys. Rev. Lett 90, 240401 (2003)

 

2002

• Cyclical quantum memory for photonic qubits
  T.B. Pittman and J.D. Franson
  Phys. Rev. A 66, 062302 (2002)
• Quantum relays and noise suppression using linear optics
  B.C. Jacobs, T.B. Pittman, and J.D. Franson
  Phys. Rev. A 66, 052307 (2002)
• Demonstration of feed-forward control for linear optics quantum computation
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Phys. Rev. A 66, 042303 (2002)
• Single photons on pseudo-demand from stored parametric down-conversion
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Phys. Rev. A 66, 042303 (2002)
• High-fidelity quantum logic operations using linear optical elements
  J.D. Franson, M.M. Donegan, M.J. Fitch, B.C. Jacobs, and T.B. Pittman
  Phys. Rev. Lett. 89, 137901 (2002)
• Dispersion cancellation and nonclassical noise reduction for large-photon-number states 
  M.J. Fitch and J.D. Franson 
  Phys. Rev. A 65, 053809 (2002)
• Perturbation Theory for Quantum-Mechanical Observables
  J.D. Franson and M.M. Donegan
  Phys. Rev. A 65, 052107 (2002)
• Demonstration of non-deterministic quantum logic operations using linear optical elements
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Phys. Rev. Lett. 88, 257902 (2002)

 

Pre 2002 (select QIP papers)

• Probabilistic quantum logic operations using polarizing beam splitters
  T.B. Pittman, B.C. Jacobs, and J.D. Franson
  Phys. Rev. A 64, 062311 (2001)

• Quantum logic based on photon exchange interactions
  J.D. Franson and T.B. Pittman
  Phys. Rev. A 60, 917 (1999)
• Nonlocality in quantum computing
  J.D. Franson and T.B. Pittman
  Fortschr. Phys. 46, 697-705, (1998)

 

Complete archival publication lists:

• Curriculum Vitae: J.D. Franson [pdf]
  
  
• Curriculum Vitae: T.B. Pittman [pdf]