Scientific Publications
Displaying 1 - 100 of 139
2023
Modeling and Control of Ultracold Atoms Trapped in an Optical Lattice: An Example-driven Tutorial on Quantum Control
Nicotra M., J. Shao, J. Combes, A. Theurkauf, P. Axelrad, L.-Y. Chih, M.J. Holland, A. Zozulya, C. LeDesma, K. Mehling, and D.Z. Anderson, Ieee Control Systems Magazine 43, 28-43 (2023).
2022
Atomtronic circuits: from basic research in many-body physics to applications for quantum technologies
Amico L., D.Z. Anderson, M. Boshier, J.-P. Brantut, L.-C. Kwek, A. Minguzzi, and W. von Klitzing, Review Of Modern Physics 94, 041001 (2022).
Application of Shaken Lattice Interferometry Based Sensors to Space Navigation
Rybak M., P. Axelrad, C. LeDesma, D.Z. Anderson, and T. Ely, Submitted (2022).
2021
Matter waves, single-mode excitations of the matter-wave field, and the atomtronic transistor oscillator
Anderson D.Z., Phys. Rev. A 104, 033311 (2021).
Roadmap on Atomtronics: State of the art and perspective
Amico L., D.Z. Anderson, and et. al, Avs Quantum Science 3, 039201 (2021).
2020
Self-adaptive amplified spontaneous emission suppression with a photorefractive two-beam coupling filter
Pettine J., M. Zhu, and D.Z. Anderson, Opt. Lett. 45, 6258 (2020).
2018
Simplified landscapes for optimization of shaken lattice interferometry
Weidner C.A., and D.Z. Anderson, New Journal Of Physics 20, (2018).
Experimental Demonstration of Shaken-Lattice Interferometry
Weidner C.A., and D.Z. Anderson, Phys. Rev. Lett. 120, 263201 (2018).
2017
Sub-Doppler laser cooling using electromagnetically induced transparency
He P., P.M. Tengdin, D.Z. Anderson, A.M. Rey, and M.J. Holland, Physical Review A 95, 053403 (2017).
Atom interferometry using a shaken optical lattice
Weidner C.A., H. Yu, R. Kosloff, and D.Z. Anderson, Physical Review A 95, 043624 (2017).
Experimental demonstration of an atomtronic battery
Caliga S.C., C.J.E. Straatsma, and D.Z. Anderson, New Journal Of Physics 19, 013036 (2017).
2016
A technique for individual atom delivery into a crossed vortex bottle beam trap using a dynamic 1D optical lattice
Dinardo B.A., and D.Z. Anderson, Review Of Scientific Instruments 87, 123108 (2016).
Collapse and revival of the monopole mode of a degenerate Bose gas in an isotropic harmonic trap
Straatsma C.J.E., V.E. Colussi, M.J. Davis, D.S. Lobser, M.J. Holland, D.Z. Anderson, H.J. Lewandowski, and E.A. Cornell, Physical Review A 94, 043640 (2016).
Highlights
Editor’s Suggestion
Controllable asymmetric double well and ring potential on an atom chip
Kim S.J., H. Yu, S.T. Gang, D.Z. Anderson, and J.B. Kim, Physical Review A 93, 033612 (2016).
Transport dynamics of ultracold atoms in a triple-well transistor-like potential
Caliga S.C., C.J.E. Straatsma, and D.Z. Anderson, New Journal Of Physics 18, 025010 (2016).
Principles of an atomtronic transistor
Caliga S.C., C.J.E. Straatsma, A.A. Zozulya, and D.Z. Anderson, New Journal Of Physics 18, 015012 (2016).
2015
Undamped nonequilibrium dynamics of a nondegenerate Bose gas in a 3D isotropic trap
Colussi V.E., C.J.E. Straatsma, D.Z. Anderson, and M.J. Holland, New Journal Of Physics 17, 103029 (2015).
Numerical model for atomtronic circuit analysis
Chow W.W., C.J.E. Straatsma, and D.Z. Anderson, Physical Review A 92, 013621 (2015).
On-chip optical lattice for cold atom experiments
Straatsma C.J.E., M.K. Ivory, J. Duggan, J. Ramirez-Serrano, D.Z. Anderson, and E.A. Salim, Optics Letters 40, 3368 (2015).
2014
On-chip optical trapping for atomic applications
Perez M.A., E.A. Salim, D.L. Farkas, J. Duggan, M.K. Ivory, and D.Z. Anderson, in Spie (SPIE, San Diego, California, United States, 2014).
2013
Principles of an atomtronic battery
Zozulya A.A., and D.Z. Anderson, Physical Review A 88, (2013).
Efficient direct evaporative cooling in an atom-chip magnetic trap
Farkas D.L., K.M. Hudek, S. Du, and D.Z. Anderson, Physical Review A 87, 053417 (2013).
High resolution imaging and optical control of Bose-Einstein condensates in an atom chip magnetic trap
Salim E.A., S.C. Caliga, J.B. Pfeiffer, and D.Z. Anderson, Applied Physics Letters 102, 084104 (2013).
2011
Compact, microchip-based systems for practical applications of ultracold atoms
Salim E.A., J. DeNatale, D.L. Farkas, K.M. Hudek, S.E. McBride, J. Michalchuk, R. Mihailovich, and D.Z. Anderson, Quantum Information Processing 10, 975-994 (2011).
Analysis of a free oscillation atom interferometer
Kafle R., D.Z. Anderson, and A.A. Zozulya, Physical Review A 84, 033639 (2011).
Multi-layer atom chips for atom tunneling experiments near the chip surface
Chuang H.-C., E.A. Salim, V. Vuletic, D.Z. Anderson, and V.M. Bright, Sensors And Actuators A: Physical 165, 101-106 (2011).
2010
Open quantum systems approach to atomtronics
Pepino R.A., J. Cooper, D. Meiser, D.Z. Anderson, and M.J. Holland, Physical Review A 82, 013640 (2010).
Revealing buried information: Statistical processing techniques for ultracold-gas image analysis
Segal S.R., Q. Diot, E.A. Cornell, A.A. Zozulya, and D.Z. Anderson, Physical Review A 81, 053601 (2010).
Atom-Optical Analogs of Electronic Components and Devices
Pepino R.A., J. Cooper, D.Z. Anderson, and M.J. Holland, in Unknown (Imperial College Press, Cambridge, Massachusettslondon, 2010).
A compact, transportable, microchip-based system for high repetition rate production of Bose-Einstein condensates
Farkas D.L., K.M. Hudek, E.A. Salim, S.R. Segal, M.B. Squires, and D.Z. Anderson, Applied Physics Letters 96, 093102 (2010).
A compact microchip atomic clock based on all-optical interrogation of ultra-cold trapped Rb atoms
Farkas D.L., A.A. Zozulya, and D.Z. Anderson, Applied Physics B 101, 705-721 (2010).
2009
Atomtronic Circuits of Diodes and Transistors
Pepino R.A., J. Cooper, D.Z. Anderson, and M.J. Holland, Physical Review Letters 103, (2009).
2008
The fabrication of through-wafer interconnects in silicon substrates for ultra-high-vacuum atom-optics cells
Chuang H.-C., D.Z. Anderson, and V.M. Bright, Journal Of Micromechanics And Microengineering 18, 045003 (2008).
Theoretical analysis of a single- and double-reflection atom interferometer in a weakly confining magnetic trap
Stickney J., R. Kafle, D.Z. Anderson, and A.A. Zozulya, Physical Review A 77, (2008).
Tunable external cavity diode laser using a micromachined silicon flexure and a volume holographic reflection grating for applications in atomic optics
Chuang H.-C., R. Jimenez-Martínez, S. Braun, D.Z. Anderson, and V.M. Bright, Journal Of Micro/Nanolithography, Mems And Moems 7, 021010 (2008).
2007
Increasing the coherence time of Bose-Einstein-condensate interferometers with optical control of dynamics
Stickney J., D.Z. Anderson, and A.A. Zozulya, Physical Review A 75, 063603 (2007).
Atomtronics: Ultracold-atom analogs of electronic devices
Seaman B.T., M. Krämer, D.Z. Anderson, and M.J. Holland, Physical Review A 75, (2007).
Modulation-enhanced sensitivity of holographic interferometry
Hughes S.M., and D.Z. Anderson, Applied Optics 46, 7868 (2007).
Transistorlike behavior of a Bose-Einstein condensate in a triple-well potential
Stickney J., D.Z. Anderson, and A.A. Zozulya, Physical Review A 75, (2007).
2005
Efficient loading of a magnetic waveguide on an atom chip
Schwindt P.D.D., E.A. Cornell, T. Kishimoto, Y.-J. Wang, and D.Z. Anderson, Physical Review A 72, (2005).
Atom Michelson Interferometer on a Chip Using a Bose-Einstein Condensate
Wang Y.-J., D.Z. Anderson, V.M. Bright, E.A. Cornell, Q. Diot, T. Kishimoto, M.G. Prentiss, R.A. Saravanan, S.R. Segal, and S. Wu, Physical Review Letters 94, (2005).
Holographic chemical vapor sensor
Ye H., O. Nilsen, V.M. Bright, and D.Z. Anderson, Optics Letters 30, 1467 (2005).
2004
Atom-chip Bose-Einstein condensation in a portable vacuum cell
Du S., M.B. Squires, Y. Imai, L. Czaia, R.A. Saravanan, V.M. Bright, J. Reichel, T.W. Hänsch, and D.Z. Anderson, Phys. Rev. A 70, (2004).
Holographic scheme for independent component analysis
Anderson D.Z., Journal Of Applied Physics 95, 3272 (2004).
2003
Atom optics on a chip
Anderson D.Z., V.M. Bright, L. Czaia, S. Du, S. Frader-Thompson, B. McCarthy, and M.B. Squires, in Ieee (IEEE, Kyoto, Japan, 2003).
A Miniature Photorefractive Circuit for Principal Component Extraction
Fotheringham E., and D.Z. Anderson, Applied Optics 42, 4736 (2003).
The geometry underlying photorefractive two-beam coupling
Damiao V.B., and D.Z. Anderson, Journal Of Optics A: Pure And Applied Optics 5, S536 - S549 (2003).
2002
A lens antenna array with adaptive optical processing
Fotheringham E., S. Romisch, P.C. Smith, D. Popovic, D.Z. Anderson, and Z. Popovic, Ieee Transactions On Antennas And Propagation 50, 607-617 (2002).
2001
-70~dB optical carrier suppression by two-beam coupling in photorefractive media
Anderson D.Z., V.B. Damiao, D. Popovic, Z. Popovic, S. Romisch, and A. Sullivan, Applied Physics B 72, 743-748 (2001).
Photorefractive BaTiO_3 spheres and spherical disks
Damiao V.B., E. Fotheringham, V. Shkunov, L. Czaia, and D.Z. Anderson, Optics Letters 26, 611 (2001).
Two-beam Coupling Modules for Photorefractive Optical Circuits
Damiao V.B., D.L. Manuzak, W.S. Bickel, and D.Z. Anderson, Applied Optics 40, 3365 (2001).
Magnetic switch for integrated atom optics
Müller D., E.A. Cornell, M. Prevedelli, P.D.D. Schwindt, Y.-J. Wang, and D.Z. Anderson, Physical Review A 63, (2001).
2000
Waveguide atom beam splitter for laser-cooled neutral atoms
Müller D., E.A. Cornell, M. Prevedelli, P.D.D. Schwindt, A.A. Zozulya, and D.Z. Anderson, Optics Letters 25, 1382 (2000).
Optically smart active antenna arrays
Anderson D.Z., V.B. Damiao, E. Fotheringham, D. Popovic, S. Romisch, and Z. Popovic, in Ieee (IEEE, Boston, Ma, Usa, 2000).
Guiding laser-cooled atoms in hollow-core fibers
Müller D., E.A. Cornell, D.Z. Anderson, and E.R.I. Abraham, Physical Review A 61, (2000).
1999
Guiding Neutral Atoms Around Curves with Lithographically Patterned Current-Carrying Wires
Müller D., D.Z. Anderson, R. Grow, P.D.D. Schwindt, and E.A. Cornell, Physical Review Letters 83, 5194-5197 (1999).
Photorefractive two-beam coupling equations with multiple spatial-temporal features: an SVD approach
Kraut S., N. Nuttall, and D.Z. Anderson, Applied Physics B: Lasers And Optics 68, 937-945 (1999).
Information Dynamics of Photorefractive Two-Beam Coupling
Anderson D.Z., R. Brockett, and N. Nuttall, Physical Review Letters 82, 1418-1421 (1999).
Adaptive beamforming with TDI CCD-based true-time-delay processing
Kiruluta A.M., G. Kriehn, P.E.X. Silveira, S.P. Weaver, S. Kraut, K.H. Wagner, and D.Z. Anderson, in (SPIE, Denver, Co, 1999).
1998
Application of fiber Bragg grating in local and remote infrastructure health monitoring
Saouma V.E., D.Z. Anderson, K. Ostrander, B. Lee, and V. Slowik, Materials And Structures 31, 259-266 (1998).
Solitary attractors and low-order filamentation in anisotropic self-focusing media
Zwickl B.M., D.Z. Anderson, A.V. Mamaev, and M. Saffman, Physical Review A 57, 522-534 (1998).
Radiation Transfer Model of Self-Trapping Spatially Incoherent Radiation by Nonlinear Media
Shkunov V., and D.Z. Anderson, Physical Review Letters 81, 2683-2686 (1998).
1997
Bound dipole solitary solutions in anisotropic nonlocal self-focusing media
Mamaev A.V., B.M. Zwickl, V. Mezentsev, D.Z. Anderson, and M. Saffman, Physical Review A 56, R1110 - R1113 (1997).
Optical Materials: High Gains for Polymer Dynamic Holography
Anderson D.Z., Science 277, 530-531 (1997).
Optical-dipole-force fiber guiding and heating of atoms
Renn M.J., A.A. Zozulya, E.A. Donley, E.A. Cornell, and D.Z. Anderson, Physical Review A 55, 3684-3696 (1997).
Nonlinear dynamics of a 2D feedback system with photorefractive gain
Vorontsov M.A., M. Zhao, and D.Z. Anderson, Optics Communications 134, 191-194 (1997).
1996
Propagation of light beams in anisotropic nonlinear media: From symmetry breaking to spatial turbulence
Mamaev A.V., M. Saffman, D.Z. Anderson, and B.M. Zwickl, Physical Review A 54, 870-879 (1996).
Control of mutual spatial coherence of temporal features by reflexive photorefractive coupling
Zozulya A.A., D.Z. Anderson, and M. Saffman, Journal Of The Optical Society Of America B 13, 41 (1996).
Self-focusing and soliton formation in media with anisotropic nonlocal material response
Zozulya A.A., D.Z. Anderson, A.V. Mamaev, and M. Saffman, Europhysics Letters (Epl) 36, 419-424 (1996).
An intense slit discharge source of jet-cooled molecular ions and radicals (Trot < 30 K
Anderson D.Z., S. Davis, T.S. Zwier, and D.J. Nesbitt, Chemical Physics Letters 258, 207-212 (1996).
Evanescent-wave guiding of atoms in hollow optical fibers
Renn M.J., E.A. Donley, E.A. Cornell, C.E. Wieman, and D.Z. Anderson, Physical Review A 53, R648 - R651 (1996).
Stabilization of the speckle pattern of a multimode fiber undergoing bending
Anderson D.Z., M.A. Bolshtyansky, and B.Y. Zel'dovich, Optics Letters 21, 785 (1996).
1995
Analysis of total-internal-reflection phase-conjugate mirror
Zwickl B.M., G. Montemezzani, and D.Z. Anderson, Physical Review A 52, 4167-4175 (1995).
Origin of the lobe structure in photorefractive beam fanning
Montemezzani G., B.M. Zwickl, L. Czaia, D.Z. Anderson, M. Zgonik, and P. Günter, Physical Review A 52, 1791-1794 (1995).
Spatial structure of light and a nonlinear refractive index generated by fanning in photorefractive media
Zwickl B.M., and D.Z. Anderson, Physical Review A 52, 878-881 (1995).
Double phase-conjugate mirror: convection and diffraction
Zozulya A.A., M. Saffman, and D.Z. Anderson, Journal Of The Optical Society Of America B 12, 255 (1995).
The Fascinating Behavior of Light in Photorefractive Media
Zwickl B.M., G. Montemezzani, and D.Z. Anderson, Optics And Photonics News 6, 6 (1995).
104-fold isotope effect: vibrational predissociation in ArDF
Davis S., J.T. Farrell Jr., D.Z. Anderson, and D.J. Nesbitt, Chemical Physics Letters 246, 157-162 (1995).
Laser-Guided Atoms in Hollow-Core Optical Fibers
Renn M.J., D. Montgomery, O. Vdovin, D.Z. Anderson, C.E. Wieman, and E.A. Cornell, Physical Review Letters 75, 3253-3256 (1995).
Propagation of an optical beam in a photorefractive medium in the presence of a photogalvanic nonlinearity or an externally applied electric field
Zozulya A.A., and D.Z. Anderson, Physical Review A 51, 1520-1531 (1995).
Manipulating the information carried by an optical beam with reflexive photorefractive beam coupling
Anderson D.Z., M. Saffman, and A. Hermanns, Journal Of The Optical Society Of America B 12, 117 (1995).
Nonstationary self-focusing in photorefractive media
Zozulya A.A., and D.Z. Anderson, Optics Letters 20, 837 (1995).
Stability analysis of two photorefractive ring resonator circuits: the flip-flop and the feature extractor
Zozulya A.A., M. Saffman, and D.Z. Anderson, Journal Of The Optical Society Of America B 12, 1036 (1995).
1994
Propagation of Light Beams in Photorefractive Media: Fanning, Self-Bending, and Formation of Self-Pumped Four-Wave-Mixing Phase Conjugation Geometries
Zwickl B.M., M. Saffman, and D.Z. Anderson, Physical Review Letters 73, 818-821 (1994).
Acoustic signal recognition with a photorefractive time-delay neural network
Zhou G., and D.Z. Anderson, Optics Letters 19, 655 (1994).
Self-organized learning of purely temporal information in a photorefractive optical resonator
Montemezzani G., G. Zhou, and D.Z. Anderson, Optics Letters 19, 2012 (1994).
Unsupervised Learning of Temporal Features
Montemezzani G., G. Zhou, and D.Z. Anderson, Optics And Photonics News 5, 38 (1994).
Topology-preserving mappings in a self-imaging photorefractively pumped ring resonator
Saffman M., D. Montgomery, A.A. Zozulya, and D.Z. Anderson, Chaos, Solitons \& Fractals 4, 2077-2092 (1994).
Transverse instability of energy-exchanging counterpropagating waves in photorefractive media
Saffman M., A.A. Zozulya, and D.Z. Anderson, Journal Of The Optical Society Of America B 11, 1409 (1994).
Collapse of a transverse-mode continuum in a self-imaging photorefractively pumped ring resonator
Saffman M., D. Montgomery, and D.Z. Anderson, Optics Letters 19, 518 (1994).
1993
A life-sized physical model of the human cochlea with optical holographic readout
Zhou G., L. Bintz, D.Z. Anderson, and K.E. Bright, The Journal Of The Acoustical Society Of America 93, 1516 (1993).
Transverse instability of counterpropagating waves in photorefractive media
Saffman M., D. Montgomery, B.M. Zwickl, K. Kuroda, and D.Z. Anderson, Physical Review A 48, 3209-3215 (1993).
Photorefractive delay line for the visualization and processing of time-dependent signals
Zhou G., and D.Z. Anderson, Optics Letters 18, 167 (1993).
Production of in-fibre gratings using a diffractive optical element
Anderson D.Z., V. Mizrahi, T. Erdogan, and A.E. White, Electronics Letters 29, 566 (1993).
1992
Undepleted pump regime of Hill grating formation in optical fibers
Guo B., and D.Z. Anderson, Applied Physics Letters 60, 671 (1992).
Fiber-optic acoustic Fourier transducer for audio sound processing
Zhou G., L. Bintz, and D.Z. Anderson, Applied Optics 31, 1740 (1992).
The transfer function and impulse response of photorefractive two-beam coupling
Hermanns A., C. Benkert, D.M. Lininger, and D.Z. Anderson, Ieee Journal Of Quantum Electronics 28, 750-756 (1992).
Interference of one- and two-photon processes in the ionization of atoms and molecules
Anderson D.Z., N.B. Baranova, C.H. Greene, and B.Y. Zel'dovich, Soviet Physics Jetp 75, 210 (1992).
Competitive and cooperative multimode dynamics in photorefractive ring circuits
Anderson D.Z., C. Benkert, and D. Crouch, in Neural Networks For Perception (Harcourt Brace & Co., Orlando, Fl, Usa, 1992), pp. 214-252.