Flatté Research Group

From Fundamental Physics to Device Design

Reviews

Publications 

2014

  1. Y. Wang, N. J. Harmon, K. Sahin-Tiras, M. Wohlgenannt and M. E. Flatté, "Anomalous organic magnetoresistance from competing carrier-spin-dependent interactions with localized electronic and nuclear spins", Physical Review B Rapid Communications 90, 060204(R) (2014).
  2. X. Zhang, T. Liu, M. E. Flatté and H. X. Tang, "Electric-Field Coupling to Spin Waves in a Centrosymmetric Ferrite", Physical Review Letters 113, 037202 (2014).
  3. Y. Aytac, B. V. Olson, J. K. Kim, E. A. Shaner, S. D. Hawkins, J. F. Klem, M. E. Flatté and T. F. Boggess, "Effects of layer thickness and alloy composition on carrier lifetimes in mid-wave infrared InAs/InAsSb superlattices", Applied Physics Letters 105, 022107 (2014).
  4. N. J. Harmon and M. E. Flatté, "Organic magnetoresistance from deep traps", Journal of Applied Physics 116, 043707 (2014).
  5. J. van Bree, A. Yu. Silov, P. M. Koenraad and M. E. Flatté, "Spin-orbit induced circulating currents in a semiconductor nanostructure", Physical Review Letters 112, 187201 (2014).
  6. D. H. Berman, M. Khodas and M. E. Flatté, "Spin polarization oscillations without spin precession: spin-orbit entangled resonances in quasi-one-dimensional spin transport", Physical Review X 4, 011048 (2014).
  7. C. Sahin, G. Vignale and M. E. Flatté, "Derivation of effective spin-orbit Hamiltonians and spin lifetimes, with application to SrTiO3 heterostructures", Physical Review B 89, 155402 (2014).
  8. F. Macià, F. Wang, N. J. Harmon, A. D. Kent, M. Wohlgenannt and M. E. Flatté, "Organic magnetoelectroluminescence for room temperature transduction between magnetic and optical information", Nature Communications 5:3609 (2014).
  9. A. Magyar, W. Hu, T. Shanley, M. E. Flatté, E. Hu and I. Aharonovich, "Synthesis of Luminescent Eu defects in diamond", Nature Communications 5:3523 (2014).

2013

  1. M. E. Flatté, "The right ambience for a single spin", Nature 503, 205-206 (2013).
  2. M. Wohlgenannt, M. E. Flatté, N. J. Harmon, F. Wang, A. D. Kent, F. Macià, P. Fischer and M.-Y. Im, "A new twist on organic spintronics: controlling transport in organic sandwich devices using fringe fields from ferromagnetic films", SPIE Proceedings 8813, 88130O (2013).
  3. M. Bozkurt, M. R. Mahani, P. Studer, J.-M. Tang, S. R. Schofield, N. J. Curson, M. E. Flatté, A. Yu. Silov, C. F. Hirjibehedin, C. M. Canali and P. M. Koenraad, "Magnetic anisotropy of single Mn acceptors in GaAs in an external magnetic field", Physical Review B 88, 205203 (2013).
  4. B. V. Olson, E. A. Shaner, J. K. Kim, J. F. Klem, S. D. Hawkins, M. E. Flatté and T. F. Boggess, "Identification of dominant recombination mechanisms in narrow-bandgap InAs/InAsSb type-II superlattices and InAsSb alloys", Applied Physics Letters 103, 052106 (2013).
  5. B. V. Olson, L. M. Murray, J. P. Prineas, M. E. Flatté, J. T. Olesberg and T. F. Boggess, "All-optical measurement of vertical charge carrier transport in mid-wave infrared InAs/GaSb type-II superlattices", Applied Physics Letters 102, 202101 (2013).
  6. L. X. Hayden, R. Raimondi, M. E. Flatté and G. Vignale, "Intrinsic spin Hall effect at asymmetric oxide interfaces: Role of transverse wave functions", Physical Review B 88, 075405 (2013).
  7. N. J. Harmon, F. Macià, F. Wang, M. Wohlgenannt, A. D. Kent and M. E. Flatté, "Including fringe fields from a nearby ferromagnet in a percolation theory of organic magnetoresistance", Physical Review B Rapid Communications 87, 121203(R) (2013).
  8. N. J. Harmon and M. E. Flatté, "Distinguishing Spin Relaxation Mechanisms in Organic Semiconductors", Physical Review Letters 110, 176602 (2013).
  9. J. Bocquel, V. R. Kortan, R. P. Campion, B. L. Gallagher, M. E. Flatté and P. M. Koenraad, "Core-state manipulation of single Fe impurities in GaAs with a scanning tunneling microscope", Physical Review B 87, 075421 (2013).
  10. F. Macià, F. Wang, N. J. Harmon, M. Wohlgenannt, A. D. Kent and M. E. Flatté, "Hysteretic control of organic conductance due to remanent magnetic fringe fields", Applied Physics Letters 102, 042408 (2013).
  11. C. Grein, M. E. Flatté, A. J. Evans, A. Hood, W. E. Tennant and V. Nathan, "Design of Phosphorus-Containing MWIR Type II Superlattices for Infrared Photon Detectors", Journal of Selected Topics in Quantum Electronics 19, 3800306 (2013).

2012

  1. T. Chanier, C. E. Pryor and M. E. Flatté, "Substitutional nickel impurities in diamond: decoherence-free subspaces for quantum information processing", Europhysics Letters 99, 67006 (2012).
  2. E. Johnston-Halperin, M. E. Flatté and D. D. Awschalom, "Experimental demonstration of a magnetic bipolar junction transistor", SPIE Proceedings 8461, 846107 (2012).
  3. N. J. Harmon and M. E. Flatté, "Theory of Organic Magnetoresistance in Disordered Organic Semiconductors", SPIE Proceedings 8461, 84611L (2012).
  4. B. V. Olson, E. A. Shaner, J. K. Kim, J. F. Klem, S. D. Hawkins, L. M. Murray, J. P. Prineas, M. E. Flatté and T. F. Boggess, "Time-resolved optical measurements of minority carrier recombination in a mid-wave infrared InAsSb alloy and InAs/InAsSb superlattice", Applied Physics Letters 101, 092109 (2012).
  5. N. J. Harmon and M. E. Flatté, "Effects of spin-spin interactions on magnetoresistance in disordered organic semiconductors", Physical Review B 85, 245213 (2012).
  6. T. Chanier, C. E. Pryor and M. E. Flatté, "Chemical trends of substitutional transition metal dopants in diamond: an ab initio study", Physical Review B 86, 085203 (2012).
  7. F. Wang, F. Macià, M. Wohlgenannt, A. D. Kent and M. E. Flatté, "Magnetic fringe field control of electronic transport in an organic film", Physical Review X 2, 021013 (2012). 
  8. N. J. Harmon and M. E. Flatté, "Spin-flip induced magnetoresistance in positionally disordered organic solids", Physical Review Letters 108, 186602 (2012). 
  9. O. Chalaev, G. Vignale and M. E. Flatté, "Spin-orbit interaction from low-symmetry localized defects in semiconductors" Europhysics Letters 98, 17013 (2012).
  10. J. van Bree, A. Yu. Silov, P. M. Koenraad, M. E. Flatté, and C. E. Pryor, "g factors and diamagnetic coefficients of electrons, holes and excitons in InAs/InP quantum dots", Physical Review B 85, 165323.
  11. N. J. Harmon and M. E. Flatté, "Semiclassical theory of magnetoresistance in positionally disordered organic semiconductors", Physical Review B 85, 075204 (2012).
  12. J.-M. Tang, B. T. Collins, and M. E. Flatté, "Electron spin-phonon interaction symmetries and tunable spin relaxation in silicon and germanium", Physical Review B 85, 045202 (2012).

2011

  1. R. Mathew, C. E. Pryor, M. E. Flatté, and K. C. Hall, "Optimal quantum control for conditional rotation of exciton qubits in semiconductor quantum dots", Physical Review B 84, 205322 (2011).
  2. J. Pingenot, C. E. Pryor and M. E. Flatté, "Electric-field Manipulation of the Landé g Tensor of Holes in In0.5Ga0.5As/GaAs Self-assembled Quantum Dots", Physical Review B 84, 195403 (2011).
  3. I. Ţifrea and M. E. Flatté, "Nonequilibrium nuclear polarization and induced hyperfine and dipolar magnetic fields in semiconductor nanostructures", Physical Review B 84, 155319 (2011).
  4. E. A. Golovatski and M. E. Flatté, "Spin torque and charge resistance of ferromagnetic semiconductor 2π and π domain walls", Physical Review B 84, 115210 (2011).
  5. D. H. Berman and M. E. Flatté, "Electron beam formation from spin-orbit interactions in zinc-blende semiconductor quantum wells", SPIE Proceedings 8100, 810014 (2011).
  6. M. E. Flatté, "A well-rounded life for an electron spin", Physics, 4, 73 (2011).
  7. M. E. Flatté, "Hidden order revealed", Nature Physics (News & Views) 7, 285-286 (2011).

2010

  1. Ö. O. Soykal and M. E. Flatté, “Size-dependence of Strong-Coupling Between Nanomagnets and Photonic Cavities”, Physical Review B 82, 104413 (2010). Selected for inclusion in Virtual Journal of Quantum Information,
  2. J. K. Garleff, A. P. Wijnheijmer, A. Yu Silov, J. van Bree, W. Van Roy, J.-M. Tang, M. E. Flatté and P. M. Koenraad, “Enhanced binding energy of manganese acceptors close to the GaAs(110) surface”, Physical Review B 82, 035303 (2010).
  3. Ö. O. Soykal and M. E. Flatté, "Coherent strong-field coupling of a ferromagnetic nanomagnet with a photonic cavity", SPIE Proceedings 7760, 77600G (2010).
  4. C. H. Grein and M. E. Flatté, "Optimization of MWIR Type-II superlattices for infrared detection", SPIE Proceedings 7660, 76601L (2010).
  5. D. H. Berman and M. E. Flatté, “Electron beam formation from spin-orbit inter- actions in zincblende semiconductor quantum wells”, Physical Review Letters 105, 157202 (2010).
  6. C. Çelebi, J. K. Garleff, A. Yu. Silov, A. M. Yakunin, P. M. Koenraad, W. Van Roy, J.-M. Tang and M. E. Flatté, "Surface induced asymmetry of acceptor wave functions", Physical Review Letters 104, 086404 (2010). Cover article.
  7. Ö. O. Soykal and M. E. Flatté, "Strong field interactions between a nanomagnet and a photonic cavity", Physical Review Letters 104, 077202 (2010).
  8. M. E. Flatté, A. A. Kornyshev and M. Urbakh, "Electrovariable nanoplasmonics and Self-Assembling Smart Mirrors", Journal of Physical Chemistry C 114, 1735-1747 (2010). Cover article.
  9. M. E. Flatté and C. E. Pryor, "Defect states in type-II strained-layer superlattices", SPIE Proceedings 7608, 7608-76 (2010).

2009

  1. J.-M. Tang and M. E. Flatté, "Optical and electrical manipulation of single ion spins in semiconductors", SPIE Proceedings 7398, 73980K (2009).
  2. M. E. Flatté, "Silicon spintronics warms up", Nature (News & Views) 462, 419-420 (2009).
  3. M. E. Flatté, A. A. Kornyshev and M. Urbakh, "Nanoparticles at electrifed liquidliquid interfaces: new options for electro-optics", Faraday Discussions 143, 109-115 (2009).
  4. C. E. Pryor, M. E. Flatté, and J. Levy, "Electrical manipulation of an electronic two-state system in Ge quantum dots", Applied Physics Letters 95, 232103 (2009).
  5. M. E. Flatté and C. H. Grein, "Theory and modeling of type-II strained-layer superlattice detectors", SPIE Proceedings 7222, 72220Q (2009).
  6. M. E. Flatté, A. De, J.-M. Tang, and C. E. Pryor, "Optoelectronic manipulation of single spins in semiconductors", SPIE Proceedings 7225, 722504 (2009).
  7. N. A. J. M. Kleemans, J. van Bree, M. Bozkurt, P. J. van Veldhoven, P. A. Nouwens, R. Nötzel, A. Yu. Silov, P. M. Koenraad, and M. E. Flatté, "Size-dependent exciton g factor in self-assembled InAs/InP quantum dots", Physical Review B 79, 045311(2009). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  8. A. De, C. E. Pryor, and M. E. Flatté, "Electric-field control of a hydrogenic donor's spin in a semiconductor", Physical Review Letters 102, 017603 (2009).

2008

  1. M. E. Flatté, A. A. Kornyshev, and M. Urbakh, "Giant Stark effect in quantum dots at liquid/liquid interfaces: A new option for tunable optical filters", Proceedings of the National Academy of Sciences 105, 18212-18214 (2008) Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  2. Y. Chang, C. H. Grein, J. Zhao, C. R. Becker, M. E. Flatté, P.-K. Liao, F. Aqariden, and S. Sivananthan, "Carrier recombination lifetime characterization of molecular beam epitaxially grown HgCdTe", Applied Physics Letters 93, 192111 (2008)
  3. J.-M. Tang and M. E. Flatté, "Magnetic Circular Dichroism from the Impurity Band in III-V Diluted Magnetic Semiconductors", Physical Review Letters 101, 157203 (2008).
  4. C. H. Grein, M. E. Flatté, and Y. Chang, "Modeling of recombination in HgCdTe", Journal of Electronic Materials 37, 1415-1419 (2008).
  5. J. K. Garle, C. Çelebi, W. Van Roy, J.-M. Tang, M. E. Flatté and P. M. Koenraad, "Atomically precise impurity identification and modification on the manganese doped GaAs (110) surface with scanning tunneling microscopy", Physical Review B 78, 075313 (2008).
  6. M. E. Flatté, "A one-way street for spin current", Nature Physics (News & Views), 4, 587-588 (2008).
  7. J. Pingenot, C. E. Pryor and M. E. Flatté, "Method for Full Bloch-Sphere Control of a Localized Spin via a Single Electrical Gate", Applied Physics Letters 92, 222502 (2008) (cover article) Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  8. R. C. Myers, M. H. Mikkelsen, J.-M. Tang, A. C. Gossard, M. E. Flatté, D. D. Awschalom, "Zero-field optical manipulation of magnetic ions in semiconductors", Nature Materials 7, 203-208 (2008) (selected for advance online publication) Selected for inclusion in Virtual Journal of Nanoscale Science & Technology and Virtual Journal of Quantum Information.
  9. C. Çelebi, P. M. Koenraad, A. Yu. Silov, W. Van Roy, A. M. Monakhov, J.-M. Tang, and M. E. Flatté, "Anisotropic Spatial Structure of Deep Acceptor States in GaAs and GaP", Physical Review B 77, 075328 (2008)

2007

  1. Y. Chang, S. Guha, C. H. Grein, S. Velicu, M. E. Flatté, V. Nathan, and S. Sivananthan, "Absorption of narrow-gap HgCdTe near the band edge including nonparabolicity and the urbach tail", Journal of Electronic Materials 36, 1000-1006, (2007).
  2. B. L. Sheu, R. C. Myers, J.-M. Tang, N. Samarth, D. D. Awschalom, P. Schiffer, and M. E. Flatté, "Onset of Ferromagnetism in Low-Doped Ga1-xMnxAs", Physical Review Letters, 99, 227205 (2007). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  3. F. Marczinowski, J. Wiebe, J.-M. Tang, M. E. Flatté, F. Meier, M. Morgenstern, and R. Wiesendanger, "Local Electronic Structure near Mn Acceptors in InAs: Surface-Induced Symmetry Breaking and Coupling to Host States", Physical Review Letters 99, 157202 (2007).
  4. A. M. Yakunin, A. Yu. Silov, P. M. Koenraad, J.-M. Tang, M. E. Flatté, J.-L. Primus, W. Van Roy, J. De Boeck, A. M. Monakhov, K. S. Romanov, I. E. Panaiotti, and N. S. Averkiev, "Warping a single Mn acceptor wave function by straining the GaAs host", Nature Materials 6, 512-515 (2007). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  5. D. Kitchen, A. Richardella, P. Roushan, J.-M. Tang, M. E. Flatté, and A. Yazdani, "Hole-mediated interactions of Mn acceptors on GaAs (110)", Journal of Applied Physics 101, 09G515 (2007).

2006

  1. E. M. Hankiewicz, G. Vignale, and M. E. Flatté, "Spin-Hall effect in a [110] quantum well", Physical Review Letters 97, 266601 (2006). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  2. J. P. Prineas, M. Maiorov, C. Cao, J. T. Olesberg, M. E. Flatté, M. Reddy, C. Coretsopoulos, and M. Itzler, "Processes limiting the performance of InAs/GaSb Superlattice Mid-Infrared PIN Mesa Photodiodes", SPIE Proceedings 6119, 611904 (2006).
  3. C. H. Grein, P. Boieriu, and M. E. Flatté, "Single- and two-color HgTe/CdTe-superlattice based infrared detectors'', SPIE Proceedings 6127, 61270W (2006).
  4. M. Field, G. J. Sullivan, A. Ikhlassi, C. Grein, M. E. Flatté, H. Yang, M. Zhong, and M. Weimer, "Electrical and Optical Performance of InAs/GaSb Superlattice LWIR Detectors", SPIE Proceedings 6127, 61270V (2006).
  5. D. Kitchen, A. Richardella, J.-M. Tang, M. E. Flatté, and A. Yazdani, "Atom-by-atom substitution of Mn in GaAs and visualization of of their hole-mediated interactions", Nature 442, 436-439 (2006). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  6. K. C. Hall and M. E. Flatté, "Performance of a spin-based insulated gate field effect transistor'', Applied Physics Letters 88, 162503 (2006). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  7. J.-M. Tang, J. Levy, and M. E. Flatté, "All-electrical control of single ion spins in a semiconductor", Physical Review Letters 97, 106803 (2006). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology and Virtual Journal of Quantum Information.
  8. C. E. Pryor and M. E. Flatté, "Landé g factors and orbital momentum quenching in semiconductor quantum dots", Physical Review Letters 96, 026804 (2006).
  9. Y. Qi, Z. G. Yu, and M. E. Flatté, "Spin Gunn Effect'', Physical Review Letters 96, 026602 (2006). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  10. Y. Chang, C. H. Grein, S. Sivananthan, M. E. Flatté, V. Nathan and S. Guha, "Narrow gap HgCdTe absorption behavior near the band edge including nonparabolicity and the Urbach tail", Applied Physics Letters 89, 062109 (2006).
  11. C. E. Pryor and M. E. Flatté, "Predicted ultrafast single qubit operations in semiconductor quantum dots'', Applied Physics Letters 88, 233108 (2006). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology, Virtual Journal of Ultrafast Science, and Virtual Journal of Quantum Information.

2005

  1. G. J. Sullivan, A. Ikhlassi, J. Bergman, R. E. DeWames, J. R. Waldrop, C. Grein, M. Flatté, K. Mahalingam, H. Yang, M. Zhong, and M. Weimer, "Compositional Variations in MBE Grown InAs-GaSb Superlattices for Infrared Detector Applications'', SPIE Proceedings 5783, 131-137 (2005).
  2. J.-M. Tang and M. E. Flatté, "Spin-orientation-dependent spatial structure of a magnetic acceptor state in a zincblende semiconductor", Physical Review B Rapid Communications 72, 161315(R) (2005).
  3. A. M. Yakunin, A. Yu. Silov, P. M. Koenraad, J.-M. Tang, M. E. Flatté, W. Van Roy, J. De Boeck, and J. H. Wolter, "Spatial structure of Mn-Mn pairs in GaAs", Physical Review Letters 95, 256402 (2005). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  4. J. P. Prineas, M. Reddy, J. T. Olesberg, C. Cao, S. Veerasamy, M. E. Flatté, E. Koerperick, T. F. Boggess, M. R. Santilli, and L. J. Olafsen, "Quaternary GaInAsSb 2.0-2.5 micron back-illuminated focal plane array for blood glucose monitoring", SPIE Proceedings 5726, 113-121 (2005).
  5. W. H. Lau and M. E. Flatté, "Electric field dependence of spin coherence in (001) GaAs/AlGaAs quantum wells'', (cond-mat/0503031). Physical Review B Rapid Communications 72, 161311(R) (2005). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  6. G. J. Sullivan, A. Ikhlassi, J. Bergman, R. E. DeWames, J.R. Waldrop, C. Grein, M. Flatté, K. Mahalingam, H. Yang, M. Zhong and M. Weimer, "MBE Growth of High Quantum Efficiency and Low Defect Density InAs-GaSb Superlattice Detectors", Journal of Vacuum Science and Technology B 23, 1144-1148 (2005).
  7. C. H. Grein, H. Jung, R. Singh, and M. E. Flatté, "Comparison of normal and inverted band structure HgTe/CdTe superlattices for very long wavelength infrared detectors", Journal of Electronic Materials 34, 905-908 (2005).
  8. K. C. Hall, K. Gündogdu, J. L. Hicks, A. N. Kocbay, M. E. Flatté, T. F. Boggess, K. Holabird, A. Hunter, D. H. Chow, and J. J. Zinck, "Room temperature electric field controlled spin dynamics in (110) InAs quantum wells", Applied Physics Letters 86, 202114 (2005). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  9. M. E. Flatté and G. Vignale, "Heterostructure unipolar spin transistors'', Journal of Applied Physics 97, 104508 (2005).
  10. M. N. Leuenberger, M. E. Flatté, and D. D. Awschalom, "Teleportation of electronic many-qubit states encoded in the electron spin of quantum dots via single photons", Physical Review Letters 94, 107401 (2005).
  11. K. C. Hall, K. Gündogdu, E. J. Koerperick, O. B. Shchekin, D. G. Deppe, C. E. Pryor, M. E. Flatté, T. F. Boggess, "Electron and hole spin dynamics in semiconductor quantum dots", Applied Physics Letters 86, 113111 (2005).
  12. I. Ţifrea and M. E. Flatté, "Magnetic fields from nuclear polarization in parabolic quantum wells'', Journal of Superconductivity and Novel Magnetism 18, 207-213 (2005).
  13. M. N. Leuenberger, M. E. Flatté, and D. D. Awschalom, "Measuring the entanglement of coupled spins by multiphoton interference", Europhysics Letters 71, 387-393 (2005).

2004

  1. V. Sih, W. H. Lau, R. C. Myers, A. C. Gossard, M. E. Flatté, and D. D. Awschalom, "Control of Electron Spin Coherence Using Landau Level Quantization in a Two-Dimensional Electron Gas", Physical Review B Rapid Communications 70, 161313(R) (2004).
  2. M. Deutsch, G. Vignale, and M. E. Flatté, "Effect of electrical bias on spin transport across a magnetic domain wall", Journal of Applied Physics 96, 7424-7427 (2004).
  3. J.-M. Tang and M. E. Flatté, "Impurity induced low-energy resonances in Bi2Sr2CaCu2O8+δ", Physical Review B: Rapid Communications 70, 140510(R) (2004). Selected for inclusion in Virtual Journal of Applications of Superconductivity.
  4. A.M. Yakunin, A.Yu. Silov, P.M. Koenraad, J.H. Wolter, W. Van Roy, J. De Boeck, J.-M. Tang, M.E. Flatté, "Spatial structure of an individual Mn acceptor in GaAs'', Physical Review Letters 92, 216806 (2004).
  5. C. H. Grein, K. Abu El-Rub, M. E. Flatté, and H. Ehrenreich, "Estimates of Impact Ionization Coefficients in Superlattice-Based Mid-Wavelength Infrared Avalanche Photodiodes", Materials Research Society Proceedings 799, Z3.1 (2004) (invited)
  6. M. E. Flatté, "Relativity on a chip", Nature (News and Views) 427, 21-22 (2004).
  7. I. Ţifrea and M. E. Flatté, "Nuclear spin dynamics in parabolic quantum wells", Physical Review B 69, 115305 (2004).
  8. J.-M. Tang and M. E. Flatté, "Multiband tight-binding model of local magnetism in Ga1-xMnxAs'', Physical Review Letters 92, 047201 (2004).
  9. M. N. Leuenberger, D. Loss, M. E. Flatté, and D. D. Awschalom, "Discrete Fourier Transform in Nanostructures using Scattering", Journal of Applied Physics 95, 8167-8171 (2004).

2003

  1. C. A. Ullrich and M. E. Flatté, "Anisotropic splitting of intersubband spin plasmons in quantum wells with bulk and structural inversion asymmetry", Physical Review B 68, 235310 (2003).
  2. C. E. Pryor and M. E. Flatté, "Accuracy of circular polarization as a measure of spin polarization in quantum dot qubits'', Physical Review Letters 91, 257901 (2003).
  3. K. C. Hall, W. H. Lau, K. Gündogdu, M. E. Flatté, and T. F. Boggess, "Non-magnetic semiconductor spin transistor", Applied Physics Letters 83, 2937 (2003).
  4. C. Rüster, T. Borzenko, C. Gould, G. Schmidt, L. W. Molenkamp, X. Liu, T. J. Wojtowicz, J. K. Furdyna, Z. G. Yu, and M. E. Flatté, "Very large magnetoresistance in lateral ferromagnetic (Ga,Mn)As wires with nanoconstrictions", Physical Review Letters 91, 216602 (2003). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  5. O. Z. Karimov, G. H. John, R. T. Harley, W. H. Lau, M. E. Flatté, M. Henini, and R. Airey, "High temperature gate control of quantum well spin memory", Physical Review Letters 91, 246601 (2003).
  6. S. Feng, C. H. Grein, and M. E. Flatté, "Effects of impurity scattering on electron-phonon resonances in semiconductor superlattice high-field transport'', Physical Review B 68, 085307 (2003).
  7. K. C. Hall, K. Gündogdu, E. Altunkaya, W. H. Lau, M. E. Flatté, T. F. Boggess, J. J. Zinck, W. B. Barvosa-Carter, and S. L. Skeith, "Spin relaxation in (110) and (001) InAs/GaSb superlattices", Physical Review B 68, 115311 (2003).
  8. M. E. Flatté, Z. G. Yu, E. Johnston-Halperin, and D. D. Awschalom, "Theory of semiconductor magnetic bipolar transistors", Applied Physics Letters 82, 4740 (2003). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology, Virtual Journal of Ultrafast Science, and Virtual Journal of Quantum Information.
  9. I. Ţifrea and M. E. Flatté, "Electric field tunability of nuclear and electron spin dynamics due to the hyperfine interaction in semiconductor nanostructures", Physical Review Letters 90, 237601 (2003). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  10. Z. G. Yu and M. E. Flatté, "Electric field induced suppression of the magnetoresistance of dilute magnetic semiconductor trilayers", Journal of Superconductivity: Incorporating Novel Magnetism 16, 233 (2003).

2002

  1. Z. G. Yu and M. E. Flatté, "Spin diffusion and injection in semiconductor structures: electric field effects", Physical Review B 66, 235302 (2002). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology.
  2. C. A. Ullrich and M. E. Flatté, "Intersubband spin-density excitations in quantum wells with Rashba spin splitting", Physical Review B 66, 205305 (2002).
  3. C. H. Grein, K. Abu El-Rub, and M. E. Flatté, "Enhancement of electron-initiated impact ionization in superlattice-based mid- and long-wavelength infrared avalanche photodiodes", Electrochemical Society Proceedings 2002-14, 80-87 (2002).
  4. M. E. Flatté and W. H. Lau, "Interface bonding effects on antimonide device properties", Electrochemical Society Proceedings 2002-14, 39-49 (2002).
  5. C. H. Grein, K. Abu El-Rub, M. E. Flatté, and H. Ehrenreich, "Band Engineering of Superlattice-Based Short-, Mid-, and Long-Wavelength Infrared Avalanche Photodiodes for Improved Impact Ionization Rates", Journal of Applied Physics 92, 3771-3777 (2002).
  6. C. H. Grein, W. Lau, T. L. Harbert, and M. E. Flatté, "Modeling of Very Long Infrared Wavelength InAs/GaInSb Strained Layer Superlattice Detectors", SPIE Proceedings 4795, 39-43 (2002).
  7. J.-M. Tang and M. E. Flatté, "Van Hove features in Bi2Sr2CaCu2O8+d and effective parameters for Ni impurities inferred from STM spectra", Physical Review B Rapid Communications 66, 060504(R) (2002). Selected for inclusion in Virtual Journal of Applications of Superconductivity
  8. G. Vignale and M. E. Flatté, "Nonlinear spin-polarized transport through a ferromagnetic domain wall", Physical Review Letters 89, 098302 (2002).
  9. Z. G. Yu and M. E. Flatté, "Electric-field dependent spin diffusion and spin injection into semiconductors", Physical Review B Rapid Communications 66, 201202(R) (2002). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology
  10. C. H. Grein, M. E. Flatté, T. C. Hasenberg, J.T. Olesberg, S. A. Anson, L. Zhang, and T. F. Boggess, "Auger recombination in Sb-based narrow-gap semiconductors", Journal of Applied Physics 92, 7311-7316 (2002).
  11. W. H. Lau and M. E. Flatté, "Tunability of electron spin coherence in III-V quantum wells'', Journal of Applied Physics 91, 8682-8684 (2002). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology
  12. W. H. Lau and M. E. Flatté, "Effect of interface structure on the optical properties of InAs/GaSb laser active regions", Applied Physics Letters 80, 1683-1685 (2002).

2001

  1. C. H. Grein, M. E. Flatté, and H. Ehrenreich, "Band engineering of infrared avalanche photodiodes for improved impact ionization coefficient ratios", SPIE Proceedings 4454, 212-217 (2001). (invited)
  2. J. T. Olesberg, W. H. Lau, M. E. Flatté, C. Yu, E. Altunkaya, E. M. Shaw, T. C. Hasenberg, and T. F. Boggess, "Interface contributions to spin relaxation in a short-period InAs/GaSb superlattice'', Physical Review B Rapid Communications 64, 201301(R) (2001).
  3. W. H. Lau, J. T. Olesberg, and M. E. Flatté, "Electron Spin Coherence Times in Bulk and Quantum Well Zincblende Semiconductors", Physical Review B Rapid Communications 64, 161301(R) (2001).
  4. L. Zhang, T. F. Boggess, K. Gündogdu, M. E. Flatté, D. G. Deppe, C. Cao, and O. B. Shchekin, "Excited-state dynamics and carrier capture in InGaAs/GaAs quantum dots", Applied Physics Letters 79, 3320-3322 (2001). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology
  5. M. E. Flatté, "Nickel probes superconductivity", Nature, 411, 901-903 (2001).
  6. J. T. Olesberg, M. E. Flatté, and T. C. Hasenberg, and C. H. Grein, "Mid-infrared InAs/GaInSb Separate Confinement Heterostructure Laser Diode Structures", Journal of Applied Physics 89, 3283-3289 (2001). Selected for inclusion in Virtual Journal of Nanoscale Science & Technology
  7. M. E. Flatté, J. T. Olesberg, and C. H. Grein, "Theoretical comparison of mid-wavelength infrared and long-wavelength infrared lasers", Philosophical Transactions of the Royal Society of London A 359, 533-545 (2001).
  8. M. E. Flatté and G. Vignale, "Unipolar spin diodes and transistors", Applied Physics Letters 78, 1273-1275 (2001).

2000

  1. B. L. Carter, E. Shaw, J. T. Olesberg, W. K. Chan, T. C. Hasenberg, M. E. Flatté, "High detectivity InGaAsSb p-i-n infrared photodetector for blood glucose sensing", Electronics Letters 36, 1301-1303 (2000).
  2. T. F. Boggess, J. T. Olesberg, C. Yu, M. E. Flatté, and W. H. Lau, "Room-Temperature Electron Spin Relaxation in Bulk InAs", Applied Physics Letters 77, 1333-1335 (2000).
  3. M. E. Flatté, "Quasiparticle resonant states as a probe of short-range electronic structure and Andreév coherence", Physical Review B Rapid Communications 61, R14920-R14923 (2000).
  4. M. E. Flatté and J. M. Byers, "Spin diffusion in doped semiconductors", Physical Review Letters 84, 4220-4223 (2000).
  5. M. E. Flatté and D. E. Reynolds, "The Local Spectrum of a Superconductor as a Probe of the Interaction Between Magnetic Impurities", Physical Review B 61, 14810-14814 (2000).
  6. M. E. Flatté, J. T. Olesberg, and T. F. Boggess, "Electronic Structure Engineering of the Linewidth Enhancement Factor in Mid-Infrared Semiconductor Laser Active Regions", Proceedings of the Materials Research Society, 607, 29-34 (2000).
  7. T. C. Hasenberg, P. S. Day, E. M. Shaw, D. J. Magarrell, J. T. Olesberg, C. Yu, T. F. Boggess, and M. E. Flatté, "Molecular beam epitaxy growth and characterization of broken-gap (type II) superlattices and quantum wells for midwave-infrared laser diodes", Journal of Vacuum Science and Technology B 18, 1623-1627 (2000).
  8. J. T. Olesberg, M. E. Flatté, and T. F. Boggess, "Comparison of Linewidth Enhancement Factors in Mid-Infrared Active Region Materials", Journal of Applied Physics 87, 7164-7168 (2000).

1999

  1. M. E. Flatté, J. T. Olesberg, and C. H. Grein, "Ideal performance of cascade and non-cascade intersubband and interband long-wavelength semiconductor lasers", Applied Physics Letters 75, 2020-2022 (1999).
  2. S. A. Anson, J. T. Olesberg, M. E. Flatté, T. C. Hasenberg, and T. F. Boggess, "Differential Gain, Differential Index, and Linewidth Enhancement Factor for a 4-Micron Superlattice Laser Active Layer", Journal of Applied Physics 86, 713-718 (1999).
  3. J. T. Olesberg, M. E. Flatté, B. J. Brown, T. C. Hasenberg, S. A. Anson, T. F. Boggess, and C. H. Grein, "Comparison of Mid-Infrared Laser Diode Active Regions", SPIE Proceedings 3628, 148-155 (1999).
  4. C. H. Grein, M. E. Flatté, and H. Ehrenreich, "Growth and operation tolerances for Sb-based mid-infrared lasers", Journal of Crystal Growth 202, 844-848 (1999).
  5. J. T. Olesberg, Michael E. Flatté, B. J. Brown, C. H. Grein, T. C. Hasenberg, S. A. Anson, and Thomas F. Boggess, "Optimization of active regions in midinfrared lasers", Applied Physics Letters 74, 188-90 (1999).
  6. Michael E. Flatté, C. H. Grein, T. C. Hasenberg, S. A. Anson, D.-J. Jang J. T. Olesberg, and Thomas F. Boggess, "Carrier recombination in narrow-gap semiconductor superlattices", Physical Review B 59, 5745-50 (1999).

1998

  1. D.-J. Jang, M. E. Flatté, C. H. Grein, J. T. Olesberg, T. C. Hasenberg, and Thomas F. Boggess, "Temperature dependence of Auger recombination in a multilayer, narrow-band-gap superlattice", Physical Review B 58, 13047-54 (1998).
  2. Michael E. Flatté and Jeff M. Byers, "Impurity effects on quasiparticle c-axis planar tunneling and STM spectra in high- cuprates", Physical Review Letters 80, 4546-9 (1998).
  3. C. H. Grein, Michael E. Flatté, and H. Ehrenreich, "Inapplicability of a simply parametrized threshold current in Sb-based IR lasers", SPIE Proceedings, 3284, 325-331 (1998).
  4. J. T. Olesberg, S. A. Anson, D.-J. Jang, M. E. Flatté, T. C. Hasenberg, Thomas F. Boggess, C. H. Grein, "Auger recombination in antimony-based, strain-balanced narrow-band-gap superlattices", Proceedings of the Materials Research Society, 484, 83-8 (1998).
  5. Michael E. Flatté, C. H. Grein, and J. T. Olesberg, "Theoretical performance of mid-infrared broken-gap multilayer superlattice lasers", Proceedings of the Materials Research Society, 484, 71-81 (1998). (invited)
  6. Michael E. Flatté, C. H. Grein, and H. Ehrenreich, "Sensitivity of mid-infrared InAs/InGaSb laser active regions to temperature and composition variations", Applied Physics Letters 72, 1424-6 (1998).
  7. Michael E. Flatté and C. H. Grein, "Auger optimization in mid-infrared lasers: the importance of final-state optimization", Optics Express 2, 131-6 (1998). (invited)
  8. J. T. Olesberg, S. A. Anson, S. W. McCahon, Michael E. Flatté, Thomas F. Boggess, D. H. Chow, and T. C. Hasenberg, "Experimental and theoretical density-dependent absorption spectra in (GaInSb/InAs)/AlGaSb superlattice multiple quantum wells", Applied Physics Letters 72, 229-31 (1998).

1997

  1. Michael E. Flatté, T. C. Hasenberg, J. T. Olesberg, S. A. Anson, Thomas F. Boggess, Chi Yan, and D. L. McDaniel, Jr., "III-V interband 5.2 micron laser operating at 185K", Applied Physics Letters 71, 3764-6 (1997).
  2. Michael E. Flatté, J. T. Olesberg, S. A. Anson, Thomas F. Boggess, T. C. Hasenberg, R. H. Miles, and C. H. Grein, "Theoretical Performance of Mid-Infrared Broken-Gap Multilayer Superlattice Lasers", Applied Physics Letters 70, 3212-4 (1997).
  3. Michael E. Flatté and Jeff M. Byers, "Local Electronic Structure of Defects in Superconductors", Physical Review B 56, 11213-31 (1997).
  4. Michael E. Flatté, C.H. Grein, J. T. Olesberg, and T.F. Boggess, "Theoretical Performance of Mid-IR Broken-Gap Superlattice Quantum Well Lasers", Proceedings of the Materials Research Society 450, 85-90 (1997).
  5. D.-J. Jang, J.T. Olesberg, M.E. Flatté, T.F. Boggess, and T.C. Hasenberg, "Hot Carrier Dynamics in a (GaInSb/InAs)/GaInAlAsSb Superlattice Multiple Quantum Well Measured with Mid-Wave Infrared, Subpicosecond Photoluminescence Upconversion", Applied Physics Letters 70, 1125-1127 (1997).
  6. Michael E. Flatté and Jeff M. Byers, "Local Electronic Structure of a Single Magnetic Impurity in a Superconductor", Physical Review Letters 78, 3761-4 (1997).
  7. Hyeonsik M. Cheong, William Paul, Michael E. Flatté, and Richard H. Miles, "Pressure Dependence of Band Offsets in InAs/GaInSb Superlattices", Physical Review B 55, 4477-81 (1997).

1996

  1. H. Ehrenreich, C. H. Grein, R. H. Miles, and M. E. Flatté, "Reply to Comment on "Temperature limits on infrared detectivities of InAs/InxGa1-xSb superlattices and bulk Hg1-xCdxTe" ", Journal of Applied Physics 80, 2545-6 (1996).
  2. S.W. McCahon, S.A. Anson, D.-J. Jang, M.E. Flatté, T.F. Boggess, D.H. Chow, T.C. Hasenberg, and C.H. Grein, "Carrier Recombination Dynamics in a (GaInSb/InAs)/AlGaSb Superlattice Multiple Quantum Well", Applied Physics Letters 68, 2135-7 (1996).
  3. Michael E. Flatté and Jeff M. Byers, "Theory of a Scanning Tunneling Microscope with a Two-Protrusion Tip", Physical Review B: Rapid Communications 53, 10536-9 (1996).
  4. M.E. Flatté, P.M. Young, L.-H. Peng and H. Ehrenreich, "Generalized Superlattice Theory and Intersubband Optical Transitions", Physical Review B 53, 1963-78 (1996).
  5. Michael E. Flatté and Martin Holthaus, "Classical and Quantum Dynamics of a Periodically Driven Particle in a Triangular Well", Annals of Physics 245, 113-46 (1996).
  6. H. Ehrenreich, M.E. Flatté, and C.H. Grein, "Superlattice IR Detectors: A Theoretical View", SPIE Proceedings 2685, 48-61 (1996).

1995

  1. C.H. Grein, M. Flatté and H. Ehrenreich, "Comparison of Ideal InAs/InAsSb and InAs/InGaSb Superlattice IR Detectors", Proceedings of the Third International Symposium on Long-Wavelength Infrared Detectors and Arrays: Physics and Applications Vol. 95-28, 211-218 (Electrochemical Society, Pennington, NJ, 1995).
  2. Michael E. Flatté, "Measuring a Superconductors Gap Anisotropy with EELS" Journal of Physics and Chemistry of Solids 56, 1717-8 (1995).
  3. Jeff M. Byers and Michael E. Flatté, "Two-Protrusion STM on an Anisotropic Superconductor" Journal of Physics and Chemistry of Solids 56, 1701-2 (1995).
  4. C.H. Grein, P.M. Young, M.E. Flatté and H. Ehrenreich, "Long Wavelength InAs/InGaSb Infrared Detectors: Optimization of Carrier Lifetimes" Journal of Applied Physics 78, 7143-52 (1995).
  5. M. E. Flatté, C. H. Grein, H. Ehrenreich, R. H. Miles and H. Cruz, "Theoretical Performance Limits of 2.1-4.1μm InAs/InGaSb, HgCdTe, and InGaAsSb Lasers", Journal of Applied Physics 78, 4552-9 (1995).
  6. C. H. Grein, M. E. Flatté, H. Ehrenreich and R. H. Miles, "Reply to Comment on "Temperature limits on infrared detectivities of InAs/InxGa1-xSb superlattices and bulk HgxCd1-xTe"", Journal of Applied Physics 77, 4156-8 (1995).
  7. M.E. Flatté, E. Runge and H. Ehrenreich, "Coherent Exciton Lasing in ZnSe/ZnCdSe Quantum Wells?", Applied Physics Letters 66, 1313-5 (1995).
  8. Jeff M. Byers and Michael E. Flatté, "Probing Spatial Correlations with Nanoscale Two-Contact Tunneling", Physical Review Letters 74, 306-9 (1995); Erratum, Physical Review Letters 74, 3305 (1995).

1994

  1. C.H. Grein, H. Cruz, M.E. Flatté, and H. Ehrenreich, "Theoretical Performance of Very Long Wavelength InAs/InxGa1-xSb Superlattice-Based Infrared Detectors", Applied Physics Letters 65, 2530-2 (1994).
  2. C.H. Grein, H. Cruz, M. Flatté and H. Ehrenreich, "Infrared Detectivities of 11-17 Micron Ideal InAs/InGaSb Superlattices" Proceedings of the Second International Symposium on Long-Wavelength Infrared Detectors and Arrays: Physics and Applications Vol. 94-30, 23-29 (Electrochemical Society, Pennington, NJ, 1994).
  3. Michael E. Flatté, "Measuring the Relative Phase of the Energy Gap in a High-Temperature Superconductor with EELS", Surface Science 315, L1011-5 (1994).
  4. Michael E. Flatté, "Kohn Anomalies in Superconductors", Physical Review B 50, 1190-8 (1994).
  5. Martin Holthaus and Michael E. Flatté, "Subharmonic Generation in Quantum Systems", Physics Letters A 187, 151-6 (1994).

1993

  1. J.M. Byers, Michael E. Flatté and D.J. Scalapino, "Influence of Gap Extrema on the Tunneling Conductance Near an Impurity in an Anisotropic Superconductor", Physical Review Letters 71, 3363-6 (1993).
  2. Michael E. Flatté, S. Quinlan and D.J. Scalapino, "Method for measuring the momentum-dependent relative phase of the superconducting gap of high-temperature superconductors", Physical Review B (Rapid Communications) 48, 10626-9 (1993).
  3. Michael E. Flatté, S. Quinlan and D.J. Scalapino, "Method for Measuring the Momentum-Dependent Gap Magnitude and Relative Phase in La1.85Sr0.15CuO4", Journal of Physics and Chemistry of Solids 54, 1465-8 (1993).
  4. Michael E. Flatté, "Image of the Energy Gap Anisotropy in the Vibrational Spectrum of a High Temperature Superconductor", Physical Review Letters 70, 658-61 (1993).

1991

  1. Michael E. Flatté, "Exact Theory of One-Phonon Amplitudes in Diffractive Atom-Surface Scattering", in The Structure of Surfaces III, Proceedings of the Third International Conference on the Structure of Surfaces, (Milwaukee, WI July, 1990), edited by M.A. Van Hove, et. al., Springer-Verlag, Berlin, 1991, p. 185-9.
  2. Michael E. Flatté and Walter Kohn, "Exact Theory of One-Phonon Amplitudes in Atom-Surface Scattering", Physical Review B43, 7422-6 (1991).