Harold U. Baranger | Scholars@Duke

Harold U. Baranger
Professor of Physics

The broad focus of Prof. Baranger's group is quantum open systems at the nanoscale, particularly the generation of correlation between particles in such systems. Fundamental interest in nanophysics-- the physics of small, nanometer scale, bits of solid-- stems from the ability to control and probe systems on length scales larger than atoms but small enough that the averaging inherent in bulk properties has not yet occurred. Using this ability, entirely unanticipated phenomena can be uncovered on the one hand, and the microscopic basis of bulk phenomena can be probed on the other. Additional interest comes from the many links between nanophysics and nanotechnology. Within this thematic area, our work ranges from projects trying to nail down realistic behavior in well-characterized systems, to more speculative projects reaching beyond regimes investigated experimentally to date.

Correlations between particles are a central issue in many areas of condensed matter physics, from emergent many-body phenomena in complex materials, to strong matter-light interactions in quantum information contexts, to transport properties of single molecules. Such correlations, for either electrons or bosons (photons, plasmons, phonons,…), underlie key phenomena in nanostructures. Using the exquisite control of nanostructures now possible, experimentalists will be able to engineer correlations in nanosystems in the near future. Of particular interest are cases in which one can tune the competition between different types of correlation, or in which correlation can be tunably enhanced or suppressed by other effects (such as confinement or interference), potentially causing a quantum phase transition-- a sudden, qualitative change in the correlations in the system.

My recent work has addressed correlations in both electronic systems (quantum wires and dots) and photonic systems (photon waveguides). We have focused on 3 different systems: (1) qubits coupled to a photonic waveguide, (2) quantum dots in a dissipative environment, and (3) low-density electron gas in a quantum wire. The methods used are both analytical and numerical, and are closely linked to experiments.

Current Appointments & Affiliations

Professor of Physics, Physics, Trinity College of Arts & Sciences 1999

Contact Information

291 Physics Bldg, Durham, NC 27708
Box 90305, Durham, NC 27708-0305
harold.baranger@duke.edu (919) 660-2598
Baranger Group Page
Orcid ID

Background
Education, Training, & Certifications
- Ph.D., Cornell University 1986
- M.S., Cornell University 1983
Duke Appointment History
- Chairman, Department of Physics, Physics, Trinity College of Arts & Sciences 2002 - 2005
Academic Positions Outside Duke
- Chaire d'Excellence, Nanosciences Foundation of Grenoble (France). 2011 - 2014
- Member of Technical Staff, Bell Laboratories. 1986 - 1999
- Postdoctoral Fellow, Université Paris Sud. 1985 - 1986
Recognition
Awards & Honors
- Fellow. American Physical Society. 2007
Expertise
Subject Headings
Global Scholarship
- Research
Research
Selected Grants
- Quantum Phases in Nanosystems: Dissipation, Interactions, and Non-Equilibrium Phenomena awarded by Department of Energy 2010 - 2020
- Quantum machine learning for dissipative dynamics of NISQ devices awarded by Brookhaven National Laboratory 2020
- Waveguide QED: Photon Correlations in Strongly Coupled Open Systems awarded by National Science Foundation 2011 - 2017
- Enhancing Light-Matter Interfaces via Collective Self-Organization awarded by National Science Foundation 2012 - 2016
- Development of dissipative resonant levels to study Majorana physics in nanotube quantum dots awarded by Army Research Office 2014 - 2015
- Coherence and Correlations in Electronic Nanostructures awarded by National Science Foundation 2005 - 2009
- Collaborative Research: Is Resilient Quantum Computing in Solid State Systems Possible? awarded by National Science Foundation 2005 - 2008
- Coherence and Correlation in Electronic Nanostructures awarded by National Science Foundation 2001 - 2006
- Robustness of Quantum Computing in Quantum Dots awarded by Army Research Office 2002 - 2005
- Electronic Properties of Nanostructures awarded by National Science Foundation 2002 - 2005
External Relationships
- Centre National de Recherche Scientifique (CNRS)
- Fondation Nanosciences de Grenoble
- Karlsruhe Institute of Technology
- Karlsruhe Institute of Technology (KIT)
Publications & Artistic Works
Selected Publications
- Academic Articles
  - Zhang, Xin H. H., and Harold U. Baranger. “Driven-Dissipative Phase Transition in a Kerr Oscillator: From Semi-Classical PT Symmetry to Quantum Fluctuations. (null)” Arxiv, Nov. 2020.
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  - Zhao, L., et al. “Interference of chiral Andreev edge states.” Nature Physics, vol. 16, no. 8, Aug. 2020, pp. 862–67. Scopus, doi:10.1038/s41567-020-0898-5.
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  - Zhang, Gu, and Harold U. Baranger. “Stabilization of a Majorana Zero Mode through Quantum Frustration. (null)” Physical Review B, vol. 102, July 2020, pp. 035103–035103. Manual, doi:10.1103/PhysRevB.102.035103.
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  - Zhang, Xin H. H., and Harold U. Baranger. “Heralded Bell State of Dissipative Qubits Using Classical Light in a Waveguide.” Physical Review Letters, vol. 122, Apr. 2019, pp. 140502–140502. Manual, doi:10.1103/PhysRevLett.122.140502.
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  - Calajó, G., et al. “Exciting a Bound State in the Continuum through Multiphoton Scattering Plus Delayed Quantum Feedback.” Physical Review Letters, vol. 122, no. 7, Feb. 2019. Scopus, doi:10.1103/PhysRevLett.122.073601.
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  - Gheeraert, N., et al. “Particle production in ultrastrong-coupling waveguide QED.” Physical Review A, vol. 98, no. 4, Oct. 2018. Scopus, doi:10.1103/PhysRevA.98.043816.
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  - Fang, Y. L. L., et al. “Non-Markovian dynamics of a qubit due to single-photon scattering in a waveguide.” New Journal of Physics, vol. 20, no. 4, Apr. 2018. Scopus, doi:10.1088/1367-2630/aaba5d.
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  - Zhang, X. H. H., and H. U. Baranger. “Quantum interference and complex photon statistics in waveguide QED.” Physical Review A, vol. 97, no. 2, Feb. 2018. Scopus, doi:10.1103/PhysRevA.97.023813.
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  - Fang, Yao-Lung L., and Harold U. Baranger. “Waveguide QED: Power spectra and correlations of two photons scattered off multiple distant qubits and a mirror (vol 91, 053845, 2015).” Physical Review A, vol. 96, no. 5, AMER PHYSICAL SOC, Nov. 2017. Wos, doi:10.1103/PhysRevA.96.059904.
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  - Fang, Y. L. L., and H. U. Baranger. “Multiple emitters in a waveguide: Nonreciprocity and correlated photons at perfect elastic transmission.” Physical Review A, vol. 96, no. 1, July 2017. Scopus, doi:10.1103/PhysRevA.96.013842.
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  - Zhang, Gu, et al. “Rescuing a Quantum Phase Transition with Quantum Noise.” Physical Review Letters, vol. 118, no. 5, AMER PHYSICAL SOC, Feb. 2017. Wos, doi:10.1103/PhysRevLett.118.050402.
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  - Zhang, G., et al. “Universal Nonequilibrium I-V Curve at an Interacting Impurity Quantum Critical Point.” Arxiv, vol. 1609, Sept. 2016.
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  - Fang, Yao-Lung L., and Harold U. Baranger. “Photon correlations generated by inelastic scattering in a one-dimensional waveguide coupled to three-level systems.” Physica E: Low Dimensional Systems and Nanostructures, vol. 78, Elsevier BV, Apr. 2016, pp. 92–99. Crossref, doi:10.1016/j.physe.2015.11.004.
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  - Bera, S., et al. “Dynamics of a qubit in a high-impedance transmission line from a bath perspective.” Physical Review A, vol. 93, no. 3, Mar. 2016. Scopus, doi:10.1103/PhysRevA.93.033847.
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  - Jin, L. J., et al. “Detecting photon-photon interactions in a superconducting circuit.” Physical Review B Condensed Matter and Materials Physics, vol. 92, no. 13, Oct. 2015. Scopus, doi:10.1103/PhysRevB.92.134503.
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  - Fang, Y. L. L., and H. U. Baranger. “Waveguide QED: Power spectra and correlations of two photons scattered off multiple distant qubits and a mirror.” Physical Review a Atomic, Molecular, and Optical Physics, vol. 91, no. 5, May 2015. Scopus, doi:10.1103/PhysRevA.91.053845.
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  - Fang, Yao-Lung L., et al. “One-dimensional waveguide coupled to multiple qubits: photon-photon correlations.” Epj Quantum Technology, vol. 1, no. 1, Springer Science and Business Media LLC, Dec. 2014. Crossref, doi:10.1140/epjqt3.
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  - Bera, S., et al. “Generalized multipolaron expansion for the spin-boson model: Environmental entanglement and the biased two-state system.” Physical Review B Condensed Matter and Materials Physics, vol. 90, no. 7, Aug. 2014. Scopus, doi:10.1103/PhysRevB.90.075110.
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  - Zheng, H., et al. “Transport signatures of Majorana quantum criticality realized by dissipative resonant tunneling.” Physical Review B Condensed Matter and Materials Physics, vol. 89, no. 23, June 2014. Scopus, doi:10.1103/PhysRevB.89.235135.
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  - Bera, S., et al. “Stabilizing spin coherence through environmental entanglement in strongly dissipative quantum systems.” Physical Review B Condensed Matter and Materials Physics, vol. 89, no. 12, Mar. 2014. Scopus, doi:10.1103/PhysRevB.89.121108.
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  - Liu, D. E., et al. “Tunable quantum phase transitions in a resonant level coupled to two dissipative baths.” Physical Review B Condensed Matter and Materials Physics, vol. 89, no. 8, Feb. 2014. Scopus, doi:10.1103/PhysRevB.89.085116.
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  - Zheng, Huaixiu, et al. “Waveguide-QED-based photonic quantum computation.” Phys Rev Lett, vol. 111, no. 9, Aug. 2013, p. 090502. Pubmed, doi:10.1103/PhysRevLett.111.090502.
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  - Ullmo, Denis, et al. “Mesoscopic fluctuations in the Fermi-liquid regime of the Kondo problem.” The European Physical Journal B, vol. 86, no. 8, Springer Science and Business Media LLC, Aug. 2013. Crossref, doi:10.1140/epjb/e2013-40418-3.
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  - Liu, D. E., et al. “Floquet majorana fermions for topological qubits in superconducting devices and cold-atom systems.” Physical Review Letters, vol. 111, no. 4, July 2013. Scopus, doi:10.1103/PhysRevLett.111.047002.
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  - Mehta, A. C., et al. “Zigzag phase transition in quantum wires.” Physical Review Letters, vol. 110, no. 24, June 2013. Scopus, doi:10.1103/PhysRevLett.110.246802.
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  - Zheng, Huaixiu, and Harold U. Baranger. “Persistent quantum beats and long-distance entanglement from waveguide-mediated interactions.” Physical Review Letters, vol. 110, no. 11, Mar. 2013, p. 113601. Epmc, doi:10.1103/physrevlett.110.113601.
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  - Zheng, Huaixiu, et al. “Decoy-state quantum key distribution with nonclassical light generated in a one-dimensional waveguide.” Optics Letters, vol. 38, no. 5, Mar. 2013, pp. 622–24. Epmc, doi:10.1364/ol.38.000622.
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  - Mebrahtu, H. T., et al. “Observation of majorana quantum critical behaviour in a resonant level coupled to a dissipative environment.” Nature Physics, vol. 9, no. 11, Jan. 2013, pp. 732–37. Scopus, doi:10.1038/nphys2735.
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  - Mebrahtu, Henok T., et al. “Quantum phase transition in a resonant level coupled to interacting leads.” Nature, vol. 488, no. 7409, Aug. 2012, pp. 61–64. Epmc, doi:10.1038/nature11265.
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  - Liu, D. E., et al. “Mesoscopic Anderson box: Connecting weak to strong coupling.” Physical Review B Condensed Matter and Materials Physics, vol. 85, no. 15, Apr. 2012. Scopus, doi:10.1103/PhysRevB.85.155455.
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  - Zheng, H., et al. “Strongly correlated photons generated by coupling a three- or four-level system to a waveguide.” Physical Review a Atomic, Molecular, and Optical Physics, vol. 85, no. 4, Apr. 2012. Scopus, doi:10.1103/PhysRevA.85.043832.
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  - Liu, D. E., et al. “From weak- to strong-coupling mesoscopic Fermi liquids.” Epl, vol. 97, no. 1, Jan. 2012. Scopus, doi:10.1209/0295-5075/97/17006.
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  - Zheng, H., et al. “Cavity-free photon blockade induced by many-body bound States.” Physical Review Letters, vol. 107, no. 22, Nov. 2011. Scopus, doi:10.1103/PhysRevLett.107.223601.
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  - Liu, D. E., and H. U. Baranger. “Detecting a Majorana-fermion zero mode using a quantum dot.” Physical Review B Condensed Matter and Materials Physics, vol. 84, no. 20, Nov. 2011. Scopus, doi:10.1103/PhysRevB.84.201308.
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  - Ullmo, D., et al. “Kondo effect and mesoscopic fluctuations.” Pramana Journal of Physics, vol. 77, no. 5, Nov. 2011, pp. 769–79. Scopus, doi:10.1007/s12043-011-0191-3.
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  - Zheng, H., et al. “Waveguide QED: Many-body bound-state effects in coherent and Fock-state scattering from a two-level system.” Physical Review a Atomic, Molecular, and Optical Physics, vol. 82, no. 6, Dec. 2010. Scopus, doi:10.1103/PhysRevA.82.063816.
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  - Liu, Dong E., et al. “Quantum phase transition and emergent symmetry in a quadruple quantum dot system.” Physical Review Letters, vol. 105, no. 25, Dec. 2010, p. 256801. Epmc, doi:10.1103/physrevlett.105.256801.
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  - Liu, D. E., et al. “Conductance of quantum impurity models from quantum monte carlo.” Physical Review B Condensed Matter and Materials Physics, vol. 82, no. 16, Oct. 2010. Scopus, doi:10.1103/PhysRevB.82.165447.
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  - Bomze, Y., et al. “Two-stage Kondo effect and Kondo-box level spectroscopy in a carbon nanotube.” Physical Review B Condensed Matter and Materials Physics, vol. 82, no. 16, Oct. 2010. Scopus, doi:10.1103/PhysRevB.82.161411.
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  - Novais, E., et al. “Bound on quantum computation time: Quantum error correction in a critical environment.” Physical Review a Atomic, Molecular, and Optical Physics, vol. 82, no. 2, Aug. 2010. Scopus, doi:10.1103/PhysRevA.82.020303.
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  - Ke, San-Huang, et al. “Time-dependent transport through molecular junctions.” The Journal of Chemical Physics, vol. 132, no. 23, June 2010, p. 234105. Epmc, doi:10.1063/1.3435351.
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  - Wurm, J., et al. “Graphene rings in magnetic fields: Aharonov-Bohm effect and valley splitting.” Semiconductor Science and Technology, vol. 25, no. 3, Feb. 2010. Scopus, doi:10.1088/0268-1242/25/3/034003.
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  - Güçlü, A. D., et al. “Localization in an inhomogeneous quantum wire.” Physical Review B Condensed Matter and Materials Physics, vol. 80, no. 20, Nov. 2009. Scopus, doi:10.1103/PhysRevB.80.201302.
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  - Wurm, J., et al. “Interfaces within graphene nanoribbons.” New Journal of Physics, vol. 11, Sept. 2009. Scopus, doi:10.1088/1367-2630/11/9/095022.
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  - Kaul, R. K., et al. “Ground state and excitations of quantum dots with magnetic impurities.” Physical Review B Condensed Matter and Materials Physics, vol. 80, no. 3, Aug. 2009. Scopus, doi:10.1103/PhysRevB.80.035318.
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  - Ke, San-Huang, et al. “Thermopower of molecular junctions: an ab initio study.” Nano Letters, vol. 9, no. 3, Mar. 2009, pp. 1011–14. Epmc, doi:10.1021/nl8031229.
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  - Wurm, Jürgen, et al. “Symmetry classes in graphene quantum dots: universal spectral statistics, weak localization, and conductance fluctuations.” Physical Review Letters, vol. 102, no. 5, Feb. 2009, p. 056806. Epmc, doi:10.1103/physrevlett.102.056806.
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  - Ke, S. H., et al. “Thermopower of Molecular Junctions.” Nano Lett., vol. 9, Jan. 2009, pp. 1011–14.
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  - Ke, San-Huang, et al. “Quantum-interference-controlled molecular electronics.” Nano Letters, vol. 8, no. 10, Oct. 2008, pp. 3257–61. Epmc, doi:10.1021/nl8016175.
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  - Novais, E., et al. “Hamiltonian formulation of quantum error correction and correlated noise: Effects of syndrome extraction in the long-time limit.” Physical Review a Atomic, Molecular, and Optical Physics, vol. 78, no. 1, July 2008. Scopus, doi:10.1103/PhysRevA.78.012314.
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  - Güçlü, A. D., et al. “Interaction-induced strong localization in quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 77, no. 4, Jan. 2008. Scopus, doi:10.1103/PhysRevB.77.041301.
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  - Hentschel, M., et al. “Fermi edge singularities in the mesoscopic regime: Photoabsorption spectra.” Physical Review B Condensed Matter and Materials Physics, vol. 76, no. 24, Dec. 2007. Scopus, doi:10.1103/PhysRevB.76.245419.
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  - Hentschel, M., et al. “Improving intrinsic decoherence in multiple-quantum-dot charge qubits.” Physical Review B Condensed Matter and Materials Physics, vol. 76, no. 23, Dec. 2007. Scopus, doi:10.1103/PhysRevB.76.235309.
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  - Herman, D., et al. “Level spacings in random matrix theory and Coulomb blockade peaks in quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 76, no. 19, Nov. 2007. Scopus, doi:10.1103/PhysRevB.76.195448.
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  - Ke, San-Huang, et al. “Contact transparency of nanotube-molecule-nanotube junctions.” Physical Review Letters, vol. 99, no. 14, Oct. 2007, p. 146802. Epmc, doi:10.1103/physrevlett.99.146802.
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  - Ke, San-Huang, et al. “Electron transport through single conjugated organic molecules: basis set effects in ab initio calculations.” The Journal of Chemical Physics, vol. 127, no. 14, Oct. 2007, p. 144107. Epmc, doi:10.1063/1.2770718.
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  - Liu, Rui, et al. “Cobaltocene as a spin filter.” The Journal of Chemical Physics, vol. 127, no. 14, Oct. 2007, p. 141104. Epmc, doi:10.1063/1.2796151.
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  - Ghosal, A., et al. “Incipient Wigner localization in circular quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 76, no. 8, Aug. 2007. Scopus, doi:10.1103/PhysRevB.76.085341.
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  - Ke, San-Huang, et al. “Role of the exchange-correlation potential in ab initio electron transport calculations.” The Journal of Chemical Physics, vol. 126, no. 20, May 2007, p. 201102. Epmc, doi:10.1063/1.2743004.
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  - Novais, E., et al. “Resilient quantum computation in correlated environments: a quantum phase transition perspective.” Physical Review Letters, vol. 98, no. 4, Jan. 2007, p. 040501. Epmc, doi:10.1103/physrevlett.98.040501.
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  - Lee, J. W., et al. “Disorder-Induced Superfluidity in Hardcore Bosons in Two Dimensions (Submitted).” Phys. Rev. B, 2007.
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  - Novais, E., et al. “Hamiltonian Formulation of Quantum Error Correction and Correlated Noise (null).” Corr, vol. abs/0710.1624, 2007.
  - Ke, S. H., et al. “Development of ab initio calculation for electron transport and the effects of lead and contact structures in molecular electronics.” Journal of Computational and Theoretical Nanoscience, vol. 3, no. 5, Dec. 2006, pp. 819–23. Scopus, doi:10.1166/jctn.2006.022.
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  - Priyadarshee, Anand, et al. “Quantum phase transitions of hard-core bosons in background potentials.” Physical Review Letters, vol. 97, no. 11, Sept. 2006, p. 115703. Epmc, doi:10.1103/physrevlett.97.115703.
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  - Novais, E., and Harold U. Baranger. “Decoherence by correlated noise and quantum error correction.” Physical Review Letters, vol. 97, no. 4, July 2006, p. 040501. Epmc, doi:10.1103/physrevlett.97.040501.
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  - Ghosal, A., et al. “Correlation-induced inhomogeneity in circular quantum dots.” Nature Physics, vol. 2, no. 5, May 2006, pp. 336–40. Scopus, doi:10.1038/nphys293.
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  - Kaul, Ribhu K., et al. “Spectroscopy of the Kondo problem in a box.” Physical Review Letters, vol. 96, no. 17, May 2006, p. 176802. Epmc, doi:10.1103/physrevlett.96.176802.
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  - Ke, San-Huang, et al. “Nanotube-metal junctions: 2- and 3-terminal electrical transport.” The Journal of Chemical Physics, vol. 124, no. 18, May 2006, p. 181102. Epmc, doi:10.1063/1.2200356.
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  - Liu, Rui, et al. “Negative differential resistance and hysteresis through an organometallic molecule from molecular-level crossing.” Journal of the American Chemical Society, vol. 128, no. 19, May 2006, pp. 6274–75. Epmc, doi:10.1021/ja057054z.
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  - Liu, Rui, et al. “Organometallic molecular rectification.” The Journal of Chemical Physics, vol. 124, no. 2, Jan. 2006, p. 024718. Epmc, doi:10.1063/1.2141955.
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  - Yoo, J., et al. “On the sign problem in the Hirsch-Fye algorithm for impurity problems.” Journal of Physics A: Mathematical and General, vol. 38, no. 48, Dec. 2005, pp. 10307–10. Scopus, doi:10.1088/0305-4470/38/48/004.
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  - Mucciolo, E. R., et al. “Phonon decoherence in quantum dot qubits.” Proceedings of Spie the International Society for Optical Engineering, vol. 5815, Nov. 2005, pp. 53–61. Scopus, doi:10.1117/12.603649.
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  - Vorojtsov, S., and H. U. Baranger. “Coulomb blockade peak spacings: Interplay of spin and dot-lead coupling.” Physical Review B Condensed Matter and Materials Physics, vol. 72, no. 16, Oct. 2005. Scopus, doi:10.1103/PhysRevB.72.165349.
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  - Liu, Rui, et al. “Organometallic spintronics: dicobaltocene switch.” Nano Letters, vol. 5, no. 10, Oct. 2005, pp. 1959–62. Epmc, doi:10.1021/nl0513380.
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  - Usaj, G., and H. U. Baranger. “Anisotropy in ferromagnetic nanoparticles: Level-to-level fluctuations of a collective effect.” Europhysics Letters, vol. 72, no. 1, Oct. 2005, pp. 110–16. Scopus, doi:10.1209/epl/i2005-10210-4.
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  - Kaul, R. K., et al. “Mesoscopic Kondo problem.” Europhysics Letters, vol. 71, no. 6, Sept. 2005, pp. 973–79. Scopus, doi:10.1209/epl/i2005-10184-1.
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  - Ke, San-Huang, et al. “Models of electrodes and contacts in molecular electronics.” The Journal of Chemical Physics, vol. 123, no. 11, Sept. 2005, p. 114701. Epmc, doi:10.1063/1.1993558.
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  - Hentschel, M., et al. “Fermi edge singularities in the mesoscopic regime: Anderson orthogonality catastrophe.” Physical Review B Condensed Matter and Materials Physics, vol. 72, no. 3, July 2005. Scopus, doi:10.1103/PhysRevB.72.035310.
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  - Miller, M., et al. “Statistics of wave functions in disordered systems with applications to Coulomb blockade peak spacing.” Physical Review B Condensed Matter and Materials Physics, vol. 72, no. 4, July 2005. Scopus, doi:10.1103/PhysRevB.72.045305.
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  - Lee, J. W., et al. “Quantum Monte Carlo study of disordered fermions.” Physical Review B Condensed Matter and Materials Physics, vol. 72, no. 2, July 2005. Scopus, doi:10.1103/PhysRevB.72.024525.
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  - Getty, S. A., et al. “Near-perfect conduction through a ferrocene-based molecular wire.” Physical Review B Condensed Matter and Materials Physics, vol. 71, no. 24, June 2005. Scopus, doi:10.1103/PhysRevB.71.241401.
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  - Ghosal, A., et al. “Interaction effects in the mesoscopic regime: A quantum Monte Carlo study of irregular quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 71, no. 24, June 2005. Scopus, doi:10.1103/PhysRevB.71.241306.
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  - Yoo, Jaebeom, et al. “Multilevel algorithm for quantum-impurity models.” Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics, vol. 71, no. 3 Pt 2B, Mar. 2005, p. 036708. Epmc, doi:10.1103/physreve.71.036708.
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  - Ke, S. H., et al. “Electron transport through molecules: Gate-induced polarization and potential shift.” Physical Review B Condensed Matter and Materials Physics, vol. 71, no. 11, Mar. 2005. Scopus, doi:10.1103/PhysRevB.71.113401.
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  - Jiang, H., et al. “Scrambling and gate-induced fluctuations in realistic quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 71, no. 8, Feb. 2005. Scopus, doi:10.1103/PhysRevB.71.085313.
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  - Ke, San-Huang, et al. “Contact atomic structure and electron transport through molecules.” The Journal of Chemical Physics, vol. 122, no. 7, Feb. 2005, p. 074704. Epmc, doi:10.1063/1.1851496.
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  - Ghosal, A., et al. “Interaction Effects in Irregular Quantum Dots: A Quantum Monte Carlo Study.” Phys. Rev. B, vol. 71, cond-mat/0411242, 2005, p. 241306(R).
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  - Liu, Rui, et al. “Intermolecular effect in molecular electronics.” The Journal of Chemical Physics, vol. 122, no. 4, Jan. 2005, p. 44703. Epmc, doi:10.1063/1.1825377.
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  - Ullmo, D., et al. “Interactions and broken time-reversal symmetry in chaotic quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 71, no. 20, Jan. 2005. Scopus, doi:10.1103/PhysRevB.71.201310.
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  - Usaj, G., and H. U. Baranger. “Erratum: Mesoscopic tunneling magnetoresistance (Physical Review B- Condensed Matter and Materials Physics (2001) 63 (184418)).” Physical Review B Condensed Matter and Materials Physics, vol. 71, no. 17, Jan. 2005. Scopus, doi:10.1103/PhysRevB.71.179903.
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  - Vorojtsov, S., et al. “Phonon decoherence of a double quantum dot charge qubit.” Physical Review B Condensed Matter and Materials Physics, vol. 71, no. 20, Jan. 2005. Scopus, doi:10.1103/PhysRevB.71.205322.
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  - Yoo, J., et al. “Cluster algorithms for quantum impurity models and mesoscopic Kondo physics.” Physical Review B Condensed Matter and Materials Physics, vol. 71, no. 20, Jan. 2005. Scopus, doi:10.1103/PhysRevB.71.201309.
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  - Ke, San-Huang, et al. “Molecular conductance: chemical trends of anchoring groups.” Journal of the American Chemical Society, vol. 126, no. 48, Dec. 2004, pp. 15897–904. Epmc, doi:10.1021/ja047367e.
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  - Ullmo, D., et al. “Landau Fermi-liquid picture of spin density functional theory: Strutinsky approach to quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 70, no. 20, Nov. 2004. Scopus, doi:10.1103/PhysRevB.70.205309.
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  - Hentschel, Martina, et al. “Fermi-edge singularities in the mesoscopic x-ray edge problem.” Physical Review Letters, vol. 93, no. 17, Oct. 2004, p. 176807. Epmc, doi:10.1103/physrevlett.93.176807.
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  - Jiang, H., et al. “Electron-electron interactions in isolated and realistic quantum dots: A density functional theory study.” Physical Review B Condensed Matter and Materials Physics, vol. 69, no. 23, June 2004. Scopus, doi:10.1103/PhysRevB.69.235326.
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  - Vorojtsov, S., et al. “Spin qubits in multielectron quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 69, no. 11, Mar. 2004. Scopus, doi:10.1103/PhysRevB.69.115329.
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  - Kaul, R. K., et al. “Erratum: Mesoscopic fluctuations in quantum dots in the Kondo regime (Physical Review B - Condensed Matter and Materials Physics (October 14, 2003) 68 (161305) (DOI: 10.1103/PhysRevB.69.089902)).” Physical Review B Condensed Matter and Materials Physics, vol. 69, no. 8, Feb. 2004, p. 899021.
  - Kaul, R. K., et al. “Publisher’s Note: Mesoscopic fluctuations in quantum dots in the Kondo regime [Phys. Rev. B 68, 161305 (2003)].” Physical Review B Condensed Matter and Materials Physics, vol. 69, no. 8, Jan. 2004. Scopus, doi:10.1103/PhysRevB.69.089902.
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  - Ke, S. H., et al. “Electron transport through molecules: Self-consistent and non-self-consistent approaches.” Physical Review B Condensed Matter and Materials Physics, vol. 70, no. 8, Jan. 2004. Scopus, doi:10.1103/PhysRevB.70.085410.
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  - Vorojtsov, S., et al. “Spin qubits in multielectron quantum dots (null).” Physical Review B Condensed Matter and Materials Physics, vol. 69, no. 11, 2004, pp. 1153291–96.
  - Jiang, H., et al. “Density-functional theory simulation of large quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 68, no. 16, Oct. 2003. Scopus, doi:10.1103/PhysRevB.68.165337.
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  - Ke, San-Huang, et al. “Addition energies of fullerenes and carbon nanotubes as quantum dots: the role of symmetry.” Physical Review Letters, vol. 91, no. 11, Sept. 2003, p. 116803. Epmc, doi:10.1103/physrevlett.91.116803.
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  - Jiang, Hong, et al. “Spin and conductance-peak-spacing distributions in large quantum dots: a density-functional theory study.” Physical Review Letters, vol. 90, no. 2, Jan. 2003, p. 026806. Epmc, doi:10.1103/physrevlett.90.026806.
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  - Jiang, H., et al. “Density-functional theory simulation of large quantum dots (null).” Physical Review B Condensed Matter and Materials Physics, vol. 68, no. 16, 2003, pp. 1653371–79.
  - Kaul, K., et al. “Mesoscopic fluctuations in quantum dots in the Kondo regime.” Physical Review B Condensed Matter and Materials Physics, vol. 68, no. 16, Jan. 2003. Scopus, doi:10.1103/PhysRevB.68.161305.
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  - Kaul, R. K., et al. “Mesoscopic fluctuations in quantum dots in the Kondo regime (null).” Physical Review B Condensed Matter and Materials Physics, vol. 68, no. 16, 2003, pp. 1613051–54.
  - Usaj, G., and H. U. Baranger. “Exchange and the Coulomb blockade: Peak height statistics in quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 67, no. 12, Jan. 2003, p. 4. Scopus, doi:10.1103/PhysRevB.67.121308.
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  - Mello, P. A., and H. U. Baranger. “Statistical wave scattering: From the atomic nucleus to mesoscopic systems to microwave cavities.” Physica A: Statistical Mechanics and Its Applications, vol. 306, Apr. 2002, pp. 323–33. Scopus, doi:10.1016/S0378-4371(02)00509-5.
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  - Usaj, G., and H. U. Baranger. “Spin and (formula presented) interactions in quantum dots: Leading order corrections to universality and temperature effects.” Physical Review B Condensed Matter and Materials Physics, vol. 66, no. 15, Jan. 2002, pp. 1–15. Scopus, doi:10.1103/PhysRevB.66.155333.
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  - Usaj, G., and H. U. Baranger. “Spin and e-e interactions in quantum dots: Leading order corrections to universality and temperature effects (null).” Physical Review B Condensed Matter and Materials Physics, vol. 66, no. 15, 2002, pp. 1553331–15533315.
  - Narimanov, E. E., et al. “Semiclassical theory of Coulomb blockade peak heights in chaotic quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 64, no. 23, Dec. 2001, pp. 2353291–23532913. Scopus, doi:10.1103/PhysRevB.64.235329.
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  - Ullmo, D., and H. U. Baranger. “Interactions in chaotic nanoparticles: Fluctuations in Coulomb blockade peak spacings.” Physical Review B Condensed Matter and Materials Physics, vol. 64, no. 24, Dec. 2001, pp. 2453241–24532413. Scopus, doi:10.1103/PhysRevB.64.245324.
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  - Rubio, J., et al. “Coexistence of excitonic lasing with electron-hole plasma spontaneous emission in one-dimensional semiconductor structures.” Solid State Communications, vol. 120, no. 11, Nov. 2001, pp. 423–27. Scopus, doi:10.1016/S0038-1098(01)00418-5.
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  - Usaj, G., and H. U. Baranger. “Coulomb-blockade peak-spacing distribution: Interplay of temperature and spin.” Physical Review B, vol. 6420, no. 20, Nov. 2001, p. art.no.-201319.
  - Usaj, G., and H. U. Baranger. “Mesoscopic tunneling magnetoresistance.” Physical Review B Condensed Matter and Materials Physics, vol. 63, no. 18, Apr. 2001. Scopus, doi:10.1103/PhysRevB.63.184418.
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  - Ullmo, D., et al. “Semiclassical density functional theory: Strutinsky energy corrections in quantum dots.” Physical Review B Condensed Matter and Materials Physics, vol. 63, no. 12, Mar. 2001. Scopus, doi:10.1103/PhysRevB.63.125339.
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  - Mathur, H., and H. U. Baranger. “Random Berry phase magnetoresistance as a probe of interface roughness in Si MOSFET’s.” Physical Review B Condensed Matter and Materials Physics, vol. 64, no. 23, Jan. 2001. Scopus, doi:10.1103/PhysRevB.64.235325.
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  - Mathur, H., and H. U. Baranger. “Random berry phase magnetoresistance as a probe of interface roughness in Si MOSFET'S (null).” Physical Review B Condensed Matter and Materials Physics, vol. 64, no. 23, 2001, pp. 2353251–23532520.
  - Ullmo, D., et al. “Semiclassical density functional theory: Strutinsky energy corrections in quantum dots (null).” Physical Review B Condensed Matter and Materials Physics, vol. 63, no. 12, 2001, pp. 1253391–12533913.
  - Usaj, G., and H. U. Baranger. “Coulomb-blockade peak-spacing distribution: Interplay of temperature and spin.” Physical Review B Condensed Matter and Materials Physics, vol. 64, no. 20, Jan. 2001. Scopus, doi:10.1103/PhysRevB.64.201319.
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  - Usaj, G., and H. U. Baranger. “Coulomb-blockade peak-spacing distribution: Interplay of temperature and spin (null).” Physical Review B Condensed Matter and Materials Physics, vol. 64, no. 20, 2001, pp. 2013191–94.
  - Usaj, G., and H. U. Baranger. “Mesoscopic tunneling magnetoresistance (null).” Physical Review B Condensed Matter and Materials Physics, vol. 63, no. 18, 2001, pp. 1844181–85.
  - Mello, PA, and Baranger, HU. "Interference phenomena in electronic transport through chaotic cavities: an information-theoretic approach (vol 9, pg 105, 1999)." WAVES IN RANDOM MEDIA 10.2 (April 2000): 337-337. Full Text Link to Item
  - Baranger, H. U., and D. Ullmo. “Interactions and interference in quantum dots: Kinks in Coulomb-blockade peak positions.” Physical Review B Condensed Matter and Materials Physics, vol. 61, no. 4, Jan. 2000, pp. R2425–28. Scopus, doi:10.1103/PhysRevB.61.R2425.
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  - Moustakas, A. L., et al. “Communication through a diffusive medium: coherence and capacity.” Science (New York, N.Y.), vol. 287, no. 5451, Jan. 2000, pp. 287–90. Epmc, doi:10.1126/science.287.5451.287.
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  - von Oppen, F., et al. “Interaction-induced magnetization of a two-dimensional electron gas.” Physical Review B Condensed Matter and Materials Physics, vol. 62, no. 3, Jan. 2000, pp. 1935–42. Scopus, doi:10.1103/PhysRevB.62.1935.
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  - Mello, P. A., and H. U. Baranger. “Interference phenomena in electronic transport through chaotic cavities: An information-theoretic approach.” Latin American School of Physics Xxxi Elaf, edited by S. Hacyan et al., vol. 464, AMER INST PHYSICS, Jan. 1999, pp. 281–333.
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  - Narimanov, E. E., et al. “Chaos in quantum dots: Dynamical modulation of coulomb blockade peak heights.” Physical Review Letters, vol. 83, no. 13, Jan. 1999, pp. 2640–43. Scopus, doi:10.1103/PhysRevLett.83.2640.
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  - Narimanov, E. E., et al. “Anomalous low temperature behavior of superconducting Nd_1.85Ce_0.15CuO_4-y (null).” Physical Review Letters, vol. 83, no. 13, 1999, pp. 2644–47.
  - Ullmo, D., and H. U. Baranger. “Wireless propagation in buildings: a statistical scattering approach.” Ieee Transactions on Vehicular Technology, vol. 48, no. 3, Jan. 1999, pp. 947–55. Scopus, doi:10.1109/25.765025.
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  - Ullmo, D., et al. “Chaos and interacting electrons in ballistic quantum dots.” Physical Review Letters, vol. 80, no. 5, Jan. 1998, pp. 895–99. Scopus, doi:10.1103/PhysRevLett.80.895.
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  - Ullmo, D., et al. “Semiclassical approach to orbital magnetism of interacting diffusive quantum systems.” Physica E: Low Dimensional Systems and Nanostructures, vol. 1, no. 1–4, Jan. 1997, pp. 268–73. Scopus, doi:10.1016/s1386-9477(97)00058-1.
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  - Hasen, J., et al. “Large excitonic confinement in asymmetric quantum T wires.” Superlattices and Microstructures, vol. 22, no. 3, Jan. 1997. Scopus, doi:10.1006/spmi.1996.0283.
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  - Gopar, V. A., et al. “The invariant measure for scattering matrices with block symmetries.” Journal of Physics A: Mathematical and General, vol. 29, no. 4, Dec. 1996, pp. 881–88. Scopus, doi:10.1088/0305-4470/29/4/014.
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  - Baranger, H. U., and P. A. Mello. “Reflection symmetric ballistic microstructures: Quantum transport properties.” Physical Review. B, Condensed Matter, vol. 54, no. 20, Nov. 1996, pp. R14297–300. Epmc, doi:10.1103/physrevb.54.r14297.
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  - Matveev, K. A., et al. “Coulomb blockade of tunneling through a double quantum dot.” Physical Review. B, Condensed Matter, vol. 54, no. 8, Aug. 1996, pp. 5637–46. Epmc, doi:10.1103/physrevb.54.5637.
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  - Matveev, K. A., et al. “Theory of Coulomb blockade of tunneling through a double quantum dot.” Surface Science, vol. 361–362, July 1996, pp. 623–26. Scopus, doi:10.1016/0039-6028(96)00484-0.
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  - Chang, A. M., et al. “Non-Gaussian distribution of Coulomb blockade peak heights in quantum dots.” Physical Review Letters, vol. 76, no. 10, Mar. 1996, pp. 1695–98. Epmc, doi:10.1103/physrevlett.76.1695.
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  - Baranger, H. U., and P. A. Mello. “Short paths and information theory in quantum chaotic scattering: Transport through quantum dots.” Europhysics Letters, vol. 33, no. 6, Feb. 1996, pp. 465–70. Scopus, doi:10.1209/epl/i1996-00364-5.
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  - Matveev, K. A., et al. “Tunneling spectroscopy of quantum charge fluctuations in the Coulomb blockade.” Physical Review. B, Condensed Matter, vol. 53, no. 3, Jan. 1996, pp. 1034–37. Epmc, doi:10.1103/physrevb.53.1034.
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  - Sumetskii, M. I., and H. U. Baranger. “Change in sign of the photocurrent in a coherent asymmetric superlattice.” Applied Physics Letters, vol. 67, Dec. 1995, p. 3560. Scopus, doi:10.1063/1.114921.
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  - Mello, P. A., and H. U. Baranger. “Electronic transport through ballistic chaotic cavities: an information theoretic approach.” Physica A: Statistical Mechanics and Its Applications, vol. 220, no. 1–2, Oct. 1995, pp. 15–23. Scopus, doi:10.1016/0378-4371(95)00121-M.
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  - Baranger, H. U. “Quantum transport and chaos in semiconductor microstructures.” Physica D: Nonlinear Phenomena, vol. 83, no. 1–3, May 1995, pp. 30–45. Scopus, doi:10.1016/0167-2789(94)00248-O.
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  - Aleiner, I. L., et al. “Tunneling into a Two-Dimensional Electron Liquid in a Weak Magnetic Field.” Physical Review Letters, vol. 74, no. 17, Apr. 1995, pp. 3435–38. Epmc, doi:10.1103/physrevlett.74.3435.
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  - Baranger, H. U., and P. A. Mello. “Effect of phase breaking on quantum transport through chaotic cavities.” Physical Review. B, Condensed Matter, vol. 51, no. 7, Feb. 1995, pp. 4703–06. Epmc, doi:10.1103/physrevb.51.4703.
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  - Mello, Pier A., and Harold U. Baranger. Electronic transport through ballistic chaotic cavities: an information theoretic approach (null). Vol. 220, no. 1, 1995, pp. 15–23.
  - Sumetskii, M. I., and H. U. Baranger. “Studying the insulator-conductor interface with a scanning tunneling microscope.” Applied Physics Letters, Jan. 1995, p. 1352. Scopus, doi:10.1063/1.113198.
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  - Chang, A. M., et al. “Weak localization in chaotic versus nonchaotic cavities: A striking difference in the line shape.” Physical Review Letters, vol. 73, no. 15, Oct. 1994, pp. 2111–14. Epmc, doi:10.1103/physrevlett.73.2111.
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  - Hastings, M. B., et al. “Inequivalence of weak localization and coherent backscattering.” Physical Review. B, Condensed Matter, vol. 50, no. 12, Sept. 1994, pp. 8230–44. Epmc, doi:10.1103/physrevb.50.8230.
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  - Baranger, H. U., and P. A. Mello. “Mesoscopic transport through chaotic cavities: A random S-matrix theory approach.” Physical Review Letters, vol. 73, no. 1, July 1994, pp. 142–45. Epmc, doi:10.1103/physrevlett.73.142.
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  - Nöckel, J. U., et al. “Adiabatic turn-on and the asymptotic limit in linear-response theory for open systems.” Physical Review. B, Condensed Matter, vol. 48, no. 23, Dec. 1993, pp. 17569–72. Epmc, doi:10.1103/physrevb.48.17569.
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  - Baranger, Harold U., et al. “Quantum-chaotic scattering effects in semiconductor microstructures.” Chaos (Woodbury, N.Y.), vol. 3, no. 4, Oct. 1993, pp. 665–82. Epmc, doi:10.1063/1.165928.
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  - Baranger, H. U., et al. “Weak localization and integrability in ballistic cavities.” Physical Review Letters, vol. 70, no. 25, June 1993, pp. 3876–79. Epmc, doi:10.1103/physrevlett.70.3876.
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  - Goñi, A. R., et al. “Observation of quantum wire formation at intersecting quantum wells.” Applied Physics Letters, vol. 61, no. 16, Dec. 1992, pp. 1956–58. Scopus, doi:10.1063/1.108375.
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  - Band, Y. B., et al. “Relationship between resistance, localization length, and inelastic-scattering length.” Physical Review. B, Condensed Matter, vol. 45, no. 3, Jan. 1992, pp. 1488–91. Epmc, doi:10.1103/physrevb.45.1488.
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  - Baranger, H. U., et al. “Classical and quantum ballistic-transport anomalies in microjunctions.” Physical Review. B, Condensed Matter, vol. 44, no. 19, Nov. 1991, pp. 10637–75. Epmc, doi:10.1103/physrevb.44.10637.
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  - Woodward, T. K., et al. “Sequential versus coherent tunneling in double-barrier diodes investigated by differential absorption spectroscopy.” Physical Review. B, Condensed Matter, vol. 44, no. 3, July 1991, pp. 1353–56. Epmc, doi:10.1103/physrevb.44.1353.
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  - Nixon, J. A., et al. “Breakdown of quantized conductance in point contacts calculated using realistic potentials.” Physical Review. B, Condensed Matter, vol. 43, no. 15, May 1991, pp. 12638–41. Epmc, doi:10.1103/physrevb.43.12638.
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  - Behringer, R., et al. “Quantum-mechanical features in the resistance of a submircon junction.” Physical Review Letters, vol. 66, no. 7, Feb. 1991, pp. 930–33. Epmc, doi:10.1103/physrevlett.66.930.
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  - Nixon, J. A., et al. “Conductance of quantum point contacts calculated using realistic potentials.” Superlattices and Microstructures, vol. 9, no. 2, Jan. 1991, pp. 187–90. Scopus, doi:10.1016/0749-6036(91)90280-5.
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  - Baranger, H. U. “Multiprobe electron waveguides: Filtering and bend resistances.” Physical Review. B, Condensed Matter, vol. 42, no. 18, Dec. 1990, pp. 11479–95. Epmc, doi:10.1103/physrevb.42.11479.
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  - Woodward, T. K., et al. “Sequential vs. coherent tunneling in double barrier diodes investigated by differential absorption spectroscopy.” Technical Digest International Electron Devices Meeting, Dec. 1990, pp. 959–62.
  - Jalabert, R. A., et al. “Conductance fluctuations in the ballistic regime: A probe of quantum chaos?” Physical Review Letters, vol. 65, no. 19, Nov. 1990, pp. 2442–45. Epmc, doi:10.1103/physrevlett.65.2442.
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  - Baranger, H. U., and A. D. Stone. “Geometrical effects on the Hall resistance in ballistic microstructures.” Surface Science, vol. 229, no. 1–3, Apr. 1990, pp. 212–15. Scopus, doi:10.1016/0039-6028(90)90873-7.
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  - Behringer, R. E. “One-dimensional ballistic transport in AlGaAs/GaAs electron waveguides.” Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, vol. 7, no. 6, American Vacuum Society, Nov. 1989, pp. 2039–2039. Crossref, doi:10.1116/1.584644.
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  - Baranger, H. U., and A. D. Stone. “Electrical linear-response theory in an arbitrary magnetic field: A new Fermi-surface formation.” Physical Review. B, Condensed Matter, vol. 40, no. 12, Oct. 1989, pp. 8169–93. Epmc, doi:10.1103/physrevb.40.8169.
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  - Chang, A. M., et al. “Quenching of the Hall resistance in a novel geometry.” Physical Review Letters, vol. 63, no. 9, Aug. 1989, pp. 996–99. Epmc, doi:10.1103/physrevlett.63.996.
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  - Baranger, H. U., and A. D. Stone. “Quenching of the Hall resistance in ballistic microstructures: A collimation effect.” Physical Review Letters, vol. 63, no. 4, July 1989, pp. 414–17. Epmc, doi:10.1103/physrevlett.63.414.
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  - Timp, G., et al. “Suppression of the Aharonov-Bohm effect in the quantized Hall regime.” Physical Review. B, Condensed Matter, vol. 39, no. 9, Mar. 1989, pp. 6227–30. Epmc, doi:10.1103/physrevb.39.6227.
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  - Chang, A. M., et al. “Erratum: Quenching of the Hall resistance in a novel geometry [Phys. Rev. Lett. [bold 63], 996 (1989)].” Phys. Rev. Lett., vol. 63, APS, 1989, pp. 2695–2695.
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  - Chang, A. M., et al. “Erratum: Quenching of the Hall resistance in a novel geometry (Physical Review Letters (1989) 63, 996 (2695)).” Physical Review Letters, vol. 63, no. 24, Jan. 1989, p. 2695. Scopus, doi:10.1103/PhysRevLett.63.2695.4.
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  - Timp, G., et al. “Propagation around a bend in a multichannel electron waveguide.” Physical Review Letters, vol. 60, no. 20, May 1988, pp. 2081–84. Epmc, doi:10.1103/physrevlett.60.2081.
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  - Baranger, H. U., et al. “Resistance fluctuations in multiprobe microstructures: Length dependence and nonlocality.” Physical Review. B, Condensed Matter, vol. 37, no. 11, Apr. 1988, pp. 6521–24. Epmc, doi:10.1103/physrevb.37.6521.
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  - Chang, A. M., et al. “Real-space and magnetic-field correlation of quantum-resistance fluctuations in the ballistic regime in narrow GaAs-AlxGa.” Physical Review. B, Condensed Matter, vol. 37, no. 5, Feb. 1988, pp. 2745–48. Epmc, doi:10.1103/physrevb.37.2745.
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  - Baranger, H. U., and J. W. Wilkins. “Ballistic structure in the electron distribution function of small semiconducting structures: General features and specific trends.” Physical Review. B, Condensed Matter, vol. 36, no. 3, July 1987, pp. 1487–502. Epmc, doi:10.1103/physrevb.36.1487.
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  - Baranger, H. U., et al. “Ballistic peaks in the distribution function from intervalley transfer in a submicron structure.” Applied Physics Letters, vol. 51, no. 21, Jan. 1987, pp. 1708–10. Scopus, doi:10.1063/1.98551.
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  - Stanton, C. J., et al. “Analytic Boltzmann equation approach for negative differential mobility in two-valley semiconductors.” Applied Physics Letters, vol. 49, no. 3, Dec. 1986, pp. 176–78. Scopus, doi:10.1063/1.97216.
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  - Baranger, H. U., et al. “Heterocontact effects in point-contact electron-phonon spectroscopy of the alkali metals.” Physical Review. B, Condensed Matter, vol. 31, no. 10, May 1985, pp. 6197–206. Epmc, doi:10.1103/physrevb.31.6197.
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  - Baranger, H. U., and J. W. Wilkins. “Ballistic electrons in a submicron structure: The distribution function and two valley effects.” Physica B+C, vol. 134, no. 1–3, Jan. 1985, pp. 470–74. Scopus, doi:10.1016/0378-4363(85)90389-4.
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  - Baranger, H. U., and J. W. Wilkins. “Ballistic electrons in an inhomogeneous submicron structure: Thermal and contact effects.” Physical Review B, vol. 30, no. 12, Jan. 1984, pp. 7349–51. Scopus, doi:10.1103/PhysRevB.30.7349.
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  - Sulak, L., et al. “Experimental studies of the acoustic signature of proton beams traversing fluid media.” Nuclear Instruments and Methods, vol. 161, no. 2, May 1979, pp. 203–17. Scopus, doi:10.1016/0029-554X(79)90386-0.
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  - Levi, M., et al. “Experimental studies of the acoustic signature of proton beams traversing fluid media.” Ieee Transactions on Nuclear Science, vol. 25, no. 1, Jan. 1978, pp. 325–32. Scopus, doi:10.1109/TNS.1978.4329325.
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  - Levi, M., et al. “EXPERIMENTAL STUDIES OF THE ACOUSTIC SIGNATURE OF PROTON BEAMS TRAVERSING FLUID MEDIA. (null)” Ieee Transactions on Nuclear Science, vol. NS 25, no. 1, 1977, pp. 325–32.
  - Baranger, H. U., and P. A. Mello. SCATTERING INVOLVING PROMPT AND EQUILIBRATED COMPONENTS, INFORMATION THEORY, AND CHAOTIC QUANTUM DOTS (null).
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  - Bera, Soumya, et al. Unveiling environmental entanglement in strongly dissipative qubits (null).
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  - Jiang, Hong, et al. An Efficient Algorithm for Density Functional Theory Simulation of Large Quantum Dot Systems (null).
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  - Noeckel, Jens U., et al. On adiabatic turn-on and the asymptotic limit in linear response theory for open systems (null).
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  - Mello, PA, and Baranger, HU. "Interference Phenomena in Electronic Transport Through Chaotic Cavities: An Information-Theoretic Approach." Full Text Link to Item
- Book Sections
  - Novais, E., et al. “Hamiltonian methods in quantum error correction and fault tolerance.” Quantum Error Correction, vol. 9780521897877, 2012, pp. 585–611. Scopus, doi:10.1017/CBO9781139034807.027.
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- Conference Papers
  - Usaj, G., and H. U. Baranger. “TMR in nanoscale F-N-F systems: Mesoscopic fluctuations.” Electronic Correlations: From Meso to Nano Physics, edited by T. Martin et al., E D P SCIENCES, 2001, pp. 493–96.
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  - BARANGER, H. U. “TRANSPORT IN ELECTRON WAVE-GUIDES - FILTERING AND BEND RESISTANCES.” Computational Electronics, edited by K. HESS et al., KLUWER ACADEMIC PUBLISHERS, 1991, pp. 201–06.
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  - Davies, John H., et al. Potential Fluctuations in Heterostructure Devices. Springer US, 1991, pp. 387–97. Crossref, doi:10.1007/978-1-4684-1348-9_30.
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  - BARANGER, H. U., and A. D. STONE. “SELECTIVE-POPULATION OF MODES IN ELECTRON WAVE-GUIDES - BEND RESISTANCES AND QUENCHING OF THE HALL RESISTANCE.” Science and Engineering of One and Zero Dimensional Semiconductors, edited by S. P. BEAUMONT and C. M. SOTOMAYORTORRES, vol. 214, PLENUM PRESS DIV PLENUM PUBLISHING CORP, 1990, pp. 121–32.
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Teaching & Mentoring
Recent Courses
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- Co-Chair and organizer. Waveguide QED 2020. September 2019 - June 2020 2019 - 2020
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- Graduate Admissions Committee. December 2019 - May 2020 2019 - 2020
- Department Executive Committee. November 2018 - June 2019 2018 - 2019
- Graduate Fellowship Committee. June 2018 - August 2019 2018 - 2019
- Richardson Chair Search Committee. January 2018 - May 2020 2018 - 2020
- Graduate Core Course Committee. September 2016 - June 2020 2016 - 2020

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