Bernard Yurke, Ph.D.

Areas of Interest

• My research interests are varied, but currently my focus is on DNA nanotechnology and the use of DNA self-assembly to fabricate electrical and optical devices and circuits with a few nanometer feature size. Nanoscale Materials and Device Group Website

Publications

DNA NANOTECHNOLOGY

• D. Y. Zhang, A. J. Turberfield, B. Yurke, and E. Winfree, “Engineering entropy-driven reactions and networks catalyzed by DNA,” Science, 318 [5853] 1121-1125 (2007).
• T. Liedl, H. Dietz, B. Yurke, and F. Simmel, “Controlled trapping and release of quantum dots in a DNA-Switchable hydrogel,” Small, 3 [10] 1688-1693 (2007).
• G. Seelig, B. Yurke, and E. Winfree, “Catalyzed relaxation of a metastable DNA fuel,” Journal of the American Chemical Society, 128 [37] 12211-12220 (2006).
• B. Yurke, D. C. Lin, and N. A. Langrana, “Use of DNA nanodevices in modulating the mechanical properties of polyacrylamide gels,” DNA Computing [Lecture Notes in Computer Science], 3892 417-426 (2006).
• D. C. Lin, B. Yurke, and N. A. Langrana, “Use of rigid spherical inclusions in Young’s moduli determination: Application to DNA-crosslinked gels,” Journal of Biomedical Engineering-Transactions of the ASME, 127 [4] 571-579 (2005).
• G. Seelig, B. Yurke, and E. Winfree, “DNA hybridization catalysts and catalyst circuits,” DNA Computing [Lecture Notes in Computer Science], 3384 329-343 (2005).
• B. Yurke and D. Zhang, “A clocked DNA-based replicator,” DNA Computing [Lecture Notes in Computer Science], 3384 445-457 (2005).
• D. C. Lin, B. Yurke, and N. A. Langrana, “Inducing reversible stiffness changes in DNA-crosslinked gels,” Journal of Materials Research, 20 [6] 1456-1464 (2005).
• D. C. Lin, N. A. Langrana, and B. Yurke, “Force-displacement relationships for spherical inclusions in finite elastic media,” Journal of Applied Physics, 97 [4] Article Number 043510 (2005).
• D. C. Lin, B. Yurke, N. A. Langrana, “Mechanical properties of a reversible, DNA-crosslinked polyacrylamide hydrogel,” Journal of Biomechanical Engineering-Transactions of the ASME, 126 [1] 104-110 (2004).
• A. J. Turberfield, A. J. Mitchell, B. Yurke, A. P. Mills, Jr., M. I. Blakey, and F. C. Simmel, “DNA fuel for free-running nanomachines,” Physical Review Letters, 90 [11] Article Number 118102 (2003).
• F. C. Simmel, B. Yurke, and R. J. Sanyal, “Operation kinetics of a DNA-based molecular switch,” Journal of Nanoscience and Nanotechnology, 2 [3-4] 383-390 (2002).
• F. C. Simmel and B. Yurke, “A DNA-based molecular device switchable between three distinct mechanical states,” Applied Physics Letters, 80 [5] 883-885 (2002).
• F. C. Simmel and B. Yurke, “Using DNA to construct and power a nanoactuator,” Physical Review E, 63 [4] Article Number 041913 (2001).
• B. Yurke, A. J. Turberfield, A. J. Mills, Jr., F. C. Simmel, and J. L. Neumann, “A DNA-fuelled molecular machine made of DNA,” Nature, 406 [6796] 605-608 (2000). Times Cited: 292
• B. Yurke, A. P. Mills, Jr. and S. L. Cheng, “DNA implementation of addition in which the input strands are separate from the operator strands,” Biosystems 52 [1-3] 165-174 (1999).
• A. P. Mills, Jr., B. Yurke, and P. M. Platzman, “Article for analog vector algebra computation,” Biosystems, 52 [1-3] 175-180 (1999).

BIOPHYSICS

• F. Amblard, A. C. Maggs, B. Yurke, A. N. Pargellis, and S. Leibler, “Subdiffusion and anomalous local viscoelasticity in actin networks – Reply,” Physical Review Letters, 81 [5 ] 1135-1135 (1998).
• F. Amblard, A. C. Maggs, B. Yurke, A. N. Pargellis, and S. Leibler, “Subdiffusion and anomalous local viscoelasticity in actin networks (vol 77, pg 4470, 1996)” Physical Review Letters, 81 [5] 1136-1136 (1998).
• M. Dogterom and B. Yurke, “Microtubule dynamics and the positioning of microtubule organizing centers,” Physical Review Letters, 81 [2] 485-488 (1998).
• M. Dogterom and B. Yurke, “Measurement of the force-velocity relation for growing microtubules,” Science 278 [5339] 856-860 (1997).
• T. E. Holy, M. Dogterom, B. Yurke, and S. Leibler, “Assembly and positioning of microtubule asters in microfabricated chambers,” Proceeding of the National Academy of Sciences of the United States of America, 94 [12] 6228-6231 (1997).
• F. Amblard, A. C. Maggs, B. Yurke, and S. Leibler, “Subdiffusion and anomalous local viscoelasticity in actin networks,” Physical Review Letters, 77 [21] 4470-4473 (1996).
• F. Amblard, B. Yurke, A. N. Pargellis, and S. Leibler, “A magnetic manipulator for studying local rheology and micromechanical properties of biological systems,” Review of Scientific Instruments, 67 [3] 818-827 (1996).

LIQUID CRYSTALS

• B. Yurke, A.. N. Pargellis, S. N. Majumdar, and C. Sire, “Experimental measurement of the persistence exponent of the planar Ising model,” Physical Review E, 56 [1] R40-R42 (1997).
• N. A. Pargellis, J. Mendez, M. Srinivasarao, and B. Yurke, “Dynamics of monopole annihilation by type-1/2 strings in a nematic liquid crystal,” Physical Review E, 53 [1] R25-R28 (1996).
• A. N. Pargellis, S. Green, and B. Yurke, “Planar xy-model dynamics in a nematic liquid-crystal system,” Physical Review E, 49 [5] 4250-4257 (1994).
• I. Chuang, B. Yurke, A. N. Pargellis, and N. Turok, “Dynamics in uniaxial nematic liquid-crystals,” Physical Review E, 47 [5] 3343-3356 (1993).
• A. P. Y. Wong, P. Wiltzius, R. G. Larson, and B. Yurke, “Power-law scattering in fluids with a nonscalar order parameter,” Physical Review E, 47 [4] 2683-2688 (1993).
• B. Yurke, A. N. Pargellis, T. Kovacs, and D. A. Huse, “Coarsening dynamics of the xy model,” Physical Review E, 47 [3] 1525-1530 (1993).
• N. Mason, A. N. Pargellis, and B. Yurke, “Scaling behavior of 2-time correlations in a twisted nematic liquid-crystal. Physical Review Letters, 70 [2] 190-193 (1993).
• A. N. Pargellis, P. Finn, J. W. Goodby, P. Panizza, B. Yurke, and P. E. Cladis, “Defect dynamics and coarsening dynamics in smectic-C films,” Physical Review A, 46 [12] 7765-7776 (1992).
• B. Yurke, A. N. Pargellis and N. Turok, “Coarsening dynamics in nematic liquid-crystals,” Molecular Crystals and Liquid Crystals, 223 195-203 (1992).
• B. Yurke, A. N. Pargellis, I. Chuang, N. Turok, “Coarsening dynamics in nematic liquid-crystals,” Physica B, 178 [1-4] 56-72 (1992).
• A. P. Y. Wong, P. Wiltzius, and B. Yurke, “Structure-factor scaling at the isotropic-to-nematic transition of cesium perfluoro-octanoate,” Physical Review Letters, 68 [24] 3583-3586 (1992).
• R. Snyder, A. N. Pargellis, P. A. Graham, and B. Yurke, “Light-transmission study of coarsening in a nematic liquid-crystal,” Physical Review A, 45 [4] R2169-R2172 (1992).
• A. N. Pargellis, N. Turok, and B. Yurke, “Monopole-antimonopole annihilation in a nematic liquid-crystal,” Physical Review Letters, 67 [12] 1570-1573 (1991).
• I. Chuang, N. Turok, and B. Yurke, “Late-time coarsening dynamics in a nematic liquid-crystal,” Physical Review Letters, 99 [19] 2472-2479 (1991).
• I. Chuang, R. Durrer, N. Turok, and B. Yurke, “Cosmology in the laboratory – defect dynamics in liquid-crystals,” Science, 251 [4999] 1336-1342 (1991).

MICROELECTROMECHANICAL SYSTEMS (MEMS)

• E. Bukes and B. Yurke, “Mass detection with a nonlinear nanomechanical resonator,” Physical Review E, 74 [4] Article Number 046619 (2006).
• D. S. Greywall, B. Yurke, P. A. Busch, and S. C. Arney, “Low-temperature anomalies in the dissipation of small mechanical resonators,” Europhysics Letters, 34 [1] 37-42 (1996).
• B. Yurke, D. S. Greywall, A. N. Pargellis, and P. A. Busch, “Theory of amplifier-noise evasion in an oscillator employing a nonlinear resonator,” Physical Review A, 51 [5] 4211-4229 (1995). D. S. Greywall, B. Yurke, P. A. Busch, and R. L. Willett, Evading amplifier noise in nonlinear oscillators,” Physical Review Letters, 72 [19] 2992-2995 (1994).

QUANTUM ELECTRONICS

• E. Segev, B. Abdo, O. Shtempluck, E. Bukes, and B. Yurke, “Prospects of employing superconducting stripline resonators for studying the dynamical Casimir effect experimentally,” Physics Letters A, 370 [3-4] 202-206 (2007).
• U. Gavish, B. Yurke, and Y. Imry, “Quantum noise minimization in transistor amplifiers,” Physical Review Letters, 96 [13] Article Number 133602 (2006).
• E. Bukes and B. Yurke, “Dephasing due to intermode coupling in superconducting stripline resonators,” Physical Review A, 73 [2] Article Number 023815 (2006).
• U. Gavish, B. Yurke, and Y. Imry, “Generalized constraints on quantum amplification,” Physical Review Letters 93 [25] Article Number 250601 (2004).
• B. Yurke, M. L. Roukes, R. Movshovich, and A. N. Pargellis, “A low-noise series-array Josephson junction parametric amplifier,” Applied Physics Letters, 69 [20] 3078-3080 (1996).
• S. L. McCall, L. D. Lanzerotti, B. Yurke, and A. N. Pargellis, “Radiation from a dielectric disk near a lossy dielectric plane,” Journal of Applied Physics, 79 [7] 3390-3396 (1996).
• R. Movshovich, B. Yurke, A. D. Smith, and A. H. Silver, “Subharmonic pumping of a josephson-parametric amplifier and the pitchfork instability,” Physical Review Letters, 67 [11] 1411-1414 (1991).
• B. Yurke, R. Movshovich, P. G. Kaminsky, A. D. Smith, A. H. Silver, and R. W. Simon, “Vacuum-noise squeezing at microwave-frequencies using Josephson-parametric amplifier,” Physica B, 169 [1-4] 432-435 (1991).
• P. H. Bryant, R. Movshovich, and B. Yurke, “Noise rise in nondegenerate parametric-amplifiers,” Physical Review Letters, 66 [20] 2641-2644 (1991).
• B. Yurke, “Back-action evasion as an alternative to impedance matching,” Science, 252 [5005] 528-532 (1991).
• R. Movshovich, B. Yurke, P. G. Kaminsky, A. D. Smith, A. H. Silver, and R. W. Simon, “Vacuum noise squeezing at microwave-frequencies using a Josephson parametric-amplifier,” IEEE Transactions on Magnetics, 27 [2] 2658-2660 (1991).
• B. Yurke, R. Movshovich, P. G. Kaminsky, P. Bryant, A. D. Smith, and R. W. Simon, “Behavior of noise in a nondegenerate josephson-parametric amplifier,” IEEE Transactions on Magnetics, 27 [2] 3374-3379 (1991).
• R. Movshovich, B. Yurke, P. G. Kaminsky, A. D. Smith, A. H. Silver, R. W. Simon and M. V. Schneider, “Observation of zero-point noise squeezing via a Josephson-parametric amplifier,” Physical Review Letters, 65 [12] 1419-1422 (1990).
• B. Yurke and G. P. Kochanski, “Momentum noise in vacuum tunneling transducers,” Physical Review B 41 [12] 8184-8194 (1990).
• B. Yurke, P. G. Kaminsky, R. E. Miller, E. A. Whittaker, A. D. Smith, and R. W. Simon, “Observation of 4.2K equilibrium noise squeezing via a Josephson-parametric amplifier,” IEEE Transactions on Magnetics, 25 [2] 1371-1375 (1989).
• B. Yurke, L. R. Corruccini, P. G. Kaminsky, L. W. Rupp, A. D. Smith, A. H. Silver, R. W. Simon, and E. A. Whittaker, “Observation of parametric amplification and deamplification in a Josephson parametric amplifier,” Physical Review A, 39 [5] 2519-2533 (1989).
• B. Yurke, “Interferometry with correlated fermions,” Physica B & C, 151 [1-2] 286-290 (1988).
• B. Yurke, P. G. Kaminsky, R. E. Miller, E. A. Whittaker, A.D. Smith, A. H. Silver, and R. W. Simon, “Observation of 4.2K equilibrium-noise squeezing via a Josephson-parametric amplifier,” Physical Review Letters, 60 [9] 764-767 (1988).
• B. Yurke, L. W. Rupp, and P. G. Kaminsky, “Use of the Josephson junction in fundamental quantum-electronics experiments,” IEEE Transactions on Magnetics 23 [2] 458-464 (1987).
• P. G. Kaminsky, L. W. Rupp, and B. Yurke, “Cryogenic motorized wave-guide switch,” Review of Scientific Instruments, 58 [5] 894-895 (1987).
• B. Yurke, “Quantizing the damped harmonic-oscillator,” American Journal of Physics, 54 [12] 1133-1139 (1986).
• D. Stoler and B. Yurke, “Generating antibunched light from the output of a nondegenerate frequency-converter,” Physical Review A, 34 [4] 3143-3147 (1986)
• . B. Yurke, “Input states for enhancement of fermion interferometer sensitivity,” Physical Review Letters 56 [15] 1515-1517 (1986).
• B. Yurke, “Conservative model for the damped harmonic-oscillator,” American Journal of Physics, 52 [12] 1099-1102 (1984).
• B. Yurke and J. S. Denker, “Quantum network theory,” Physical Review A, 29 [3] 1419-1437 (1984).
• B. Yurke and J. Denker, “Design for an ideal measuring device,” Physica B & C, 108 [1-3] 1359-1360 (1981).

QUANTUM OPTICS

• K. Jahne, B. Yurke and U. Gavish, “High-fidelity transfer of an arbitrary quantum state between harmonic oscillators,” Physical Review A, 75 [1] Article Number 010301 (2007).
• B. Yurke and E. Buks, “Performance of cavity-parametric amplifiers, employing Keff nonlinearties, in the presence of two-photon loss,” Journal of Lightwave Technology, 24 [12] 5054-5066 (2006).
• D. Leibrandt, B. Yurke, and R. Slusher, “Modeling ion trap thermal noise decoherence,” Quantum Information and Computation, 7 [1-2] 52-72 (2007).
• M. Hillery, B. Yurke, and D. Stoler, “Upper and lower bounds on maximal violation of local realism in a Hardy-type test using continuous variables,” Physical Review A, 63 [6] Article Number 062111 (2001).
• B. Yurke, M. Hillery, and D. Stoler, “Position-momentum local-realism violation of the Hardy type,” Physical Review A, 60 [5] 3444-3447 (1999).
• B. Yurke and D. Stoler, “Observing local realism violations with a combination of sensitive and insensitive detectors,” Physical Review Letters, 79 [25] 4941-4945 (1997).
• M. Hillery and B. Yurke, “Bell’s theorem and beyond,” Quantum and Semiclassical Optics, 7 [3] 215-227 (1995).
• B. Yurke and D. Stoler, “Bell’s-inequality experiment employing 4 harmonic-oscillators,” Physical Review A, 51 [5] 3437-3444 (1995).
• B. Yurke and D. Stoler, “Using the Pauli exclusion-principle to exhibit local-realism violations in overlapping interferometers,” Physical Review A, 47 [3] 1704-1707 (1993).
• M. D. Reid and B. Yurke, “Effect of bistability and superpositions on quantum statistics in degenerate parametric oscillation,” Physical Review A, 46 [7] 4131-4137 (1992).
• B. Yurke and D. Stoler, “Bell’s-inequality experiments using independent-particle sources,” Physical Review A, 46 [5] 2229-2234 (1992).
• B. Yurke and D. Stoler, “Einstein-Podolsky-Rosen effects from independent particle sources,” Physical Review Letters, 68 [9] 1251-1254 (1992).
• B. Yurke, W. Schleich, and D. F. Walls, “Quantum superpositions generated by quantum nondemolition measurements,” Physical Review A, 42 [3] 1703-1711 (1990).
• S. Song, C. M. Caves, and B. Yurke, “Generation of superpositions of classically distinguishable quantum states from optical back-action evasion,” Physical Review A, 41 [9] 5261-5264 (1990).
• R. E. Slusher and B. Yurke, “Squeezed Light for coherent communications,” Journal of Lightwave Technology,” 8 [3] 466-477 (1990).
• B. Yurke and M. J. Potasek, “Solution to the initial-value problem for the quantum nonlinear Schrödinger-equation,” Journal of the Optical Society of America B – Optical Physics, 6 [6] 1227-1238 (1989).
• A. LaPorta, R. E. Slusher, and B. Yurke, “Back-action evading measurements of an optical-field using parametric down conversion,” Physical Review Letters, 62 [1] 28-31 (1989).
• P. Grangier, M. J. Potasek, and B. Yurke, “Probing the phase coherence of parametrically generated photon pairs – a new test of Bell’s inequalities,” Physical Review A, 38 [6] 3132-3135 (1988).
• B. Yurke and D. Stoler, “The dynamic generation of Schrodinger cats and their detection,” Physica B & C, 151 [1-2] 298-301 (1988).
• M. J. Potasek and B. Yurke, “Dissipative effects on squeezed light generated in systems governed by the nonlinear Schrodinger-equation,” Physical Review A, 38 [3] 1335-1348 (1988).
• B. Yurke, “Detecting squeezed boson fields via particle scattering,” Physical Review Letters, 60 [24] 2476-2479 (1988).
• R. E. Slusher and B. Yurke, “Squeezed light,” Scientific American, 258 [5] 50-& (1988).
• R. E. Slusher, P. Grangier, A. LaPorta, B. Yurke, and M. J. Potasek, “Pulsed squeezed light,” Physical Review Letters, 59 [22] 2566-2569 (1987).
• P. Grangier, R. E. Slusher, B. Yurke, and A. LaPorta, “Squeezed-light enhanced polarization interferometer,” Physical Review Letters, 59 [19] 2153-2156 (1987).
• R. E. Slusher, B. Yurke, P. Grangier, A. Laporta, D. F. Walls, and M. Reid, “Squeezed-light generation by 4-wave-mixing near an atomic resonance,” Journal of the Optical Society of America B – Optical Physics, 4 [10] 1453-1464 (1987).
• B. Yurke, “Squeezed-state generation using a Josephson parametric-amplifier,” Journal of the Optical Society of America B – Optical Physics, 4 [10] 1551-1557 (1987).
• B. Yurke, P. Grangier, and R. E. Slusher, “Squeezed-state enhanced 2-frequency interferometry,” Journal of the Optical Society of America B – Optical Physics, 4 [10] 1677-1682 (1987).
• B. Yurke and M. Potasek, “Obtainment of thermal noise from a pure quantum state,” Physical Review A, 36 [7] 3464-3466 (1987).
• R. E. Slusher, B. Yurke, and J. Mertz, “Experimental progress in intracavity generation of squeezed light using resonant atomic nonlinearities,” Journal of Modern Optics, 34 [6-7] 761-773 (1987).
• B. Yurke and D. Stoler, “Measurement of amplitude probability-distributions for photon-number-operator eigenstates,” Physical Review A, 36 [4] 1955-1958 (1987).
• B. Yurke and D. Stoler, “Quantum behavior of a 4-wave mixer operated in a nonlinear regime,” Physical Review A, 35 [11] 4846-4849 (1987).
• M. J. Potasek and B. Yurke, Squeezed-light generation in a medium governed by the nonlinear Schrodinger-equation,” Physical Review A, 35 [9] 3974-3977 (1987).
• B. Yurke, P. Grangier, R. E. Slusher, and M. J. Potasek “Generating and detecting short-duration pulses of squeezed light,” Physical Review A, 35 [8] 3586-3589 (1987).
• B. Yurke and E. A. Whittaker, “Squeezed-state-enhanced frequency-modulation spectroscopy,” Optics Letters, 12 [4] 236-238 (1987).
• B. Yurke and D. Stoler, “Generating quantum-mechanical superpositions of macroscopically distinguishable states via amplitude dispersion,” Physical Review Letters, 57 [1] 13-16 (1986).
• B. Yurke, S. L. McCall, J. R. Klauder, Jr., “SU(2) and SU(1,1) interferometers,” Physical Review A, 33 [6] 4033-4054 (1986).
• J. R. Klauder, S. L. McCall, and B. Yurke, “Squeezed states from nondegenerate 4-wave mixers,” Physical Review A, 33 [5] 3204-3209 (1986).
• R. E. Slusher, L. W. Hollberg, B. Yurke, J. C. Mertz, and J. F. Valley, “Observation of squeezed states generated by 4-wave mixing in an optical cavity,” Physical Review Letters, 55 [22] 2409-2412 (1985).
• B. Yurke, “Squeezed-coherent-state generation via 4-wave mixers and detection via homodyne detectors,” Physical Review A 32 [1] 300-310 (1985).
• B. Yurke, “Wideband photon-counting and homodyne detection,” Physical Review A, 32 [1] 311-323 (1985).
• B. Yurke, “Optical back-action-evading amplifiers,” Journal of the Optical Society of America B – Optical Physics, 2 [5] 732-738 (1985).
• R. E. Slusher, L. Hollberg, B. Yurke, J. C. Mertz, and J. F. Valley, “Squeezed states in optical cavities – a spontaneous-emission-noise limit,” Physical Review A, 31 [5] 3512-3515 (1985).
• B. Yurke and L. R. Corruccini, “Back-action-evading measurement of optical-fields with the use of a 4-wave mixer,” Physical Review A, 30 [2] 895-900 (1984).
• B. Yurke, “Use of Cavities in squeezed-state generation,” Physical Review A, 29 [1] 408-410 (1984).

LOW TEMPERATURE PHYSICS

• B. Yurke, “An evolving universe in a pot of liquid-helium,” Physics World, 7 [7] 28-28 (1994).
• B. Yurke, P. G, Kaminsky, and D. M. Eigler, “Cryogenic piezoelectric displacement tester,” Cryogenics 26 [7] 435-436 (1986).
• B. Yurke, J. S. Denker, B. R. Johnson, N. Bigelow, L. P. Levy, D. M. Lee, and J. H. Freed, “NMR-induced recombination of spin-polarized hydrogen,” Physical Review Letters, 50 [15] 1137-1140 (1983).
• B. Yurke, J. S. Denker, and B. R. Johnson, “A cryostat for investigating spin polarized hydrogen,” Physica B & C, 107 [1-3] 521-522 (1981).
• B. Yurke, J. S. Denker, and B. R. Johnson, “A cryostat for investigating spin polarized hydrogen,” Physica B & C, 107 [1-3] 521-522 (1981).

QUANTUM CHEMISTRY

• F. A. Matsen, T. L.Welsher, and B. Yurke, “Spin-Free Quantum Chemistry. XIX: Particle-Hole and Pairing Symmetries,” International Journal of Quantum Chemistry, 212 985 (1977).
• T. L. Welsher, W. A. Seitz, B. Yurke, R. A. Gonzales, F. A. Matsen, “Configuration Interaction and the Woodward-Hoffman Rules. 1: Electrocyclic Reactions,” Journal of the American Chemical Society, 299, 8389 (1977).