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2. Metabolic and nutritional aspects in continuous renal replacement therapy

Author

Guy Fishman and Pierre Singer

Subjects
Acute kidney injury, Continuous renal replacement therapy, Nutrition, Indirect calorimetry, Resting energy expenditure, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9
Abstract

Nutrition is one of the foundations for supporting and treating critically ill patients. Nutritional support provides calories, protein, electrolytes, vitamins, and trace elements via the enteral or parenteral route. Acute kidney injury (AKI) is a common and devastating problem in critically ill patients and has significant metabolic and nutritional consequences. Moreover, renal replacement therapy (RRT), whatever the modality used, also profoundly impacts metabolism. RRT and of the extracorporeal circuit impede ‘effect the evaluation of a patient's energy requirements by clinicians. Substrates added and removed within the extracorporeal treatment are not always taken into consideration, making treatment even more challenging. Furthermore, evidence on nutritional support during continuous renal replacement therapy (CRRT) is scarce, and there are no clinical guidelines for nutrition adaptations during CRRT in critically ill patients. Most recommendations are based on expert opinions. This review discusses the complex interaction between nutritional support and CRRT and presents some milestones for nutritional support in critically ill patients on CRRT.

Published
2023
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3. Correlations between First 72 h Hypophosphatemia, Energy Deficit, Length of Ventilation, and Mortality—A Retrospective Cohort Study

Author

Liran Statlender, Orit Raphaeli, Itai Bendavid, Moran Hellerman, Ilya Kagan, Guy Fishman, and Pierre Singer

Subjects
hypophosphatemia, length of ventilation (LOV), energy deficit, Nutrition. Foods and food supply, TX341-641
Abstract

Introduction. Hypophosphatemia may prolong ventilation and induce weaning failure. Some studies have associated hypophosphatemia with increased mortality. Starting or restarting nutrition in a critically ill patient may be associated with refeeding syndrome and hypophosphatemia. The correlation between nutrition, mechanical ventilation, and hypophosphatemia has not yet been fully elucidated. Methods. A retrospective cohort study of 825 admissions during two consecutive years was conducted. Using the electronic medical chart, demographic and clinical data were obtained. Hypophosphatemia was defined as a phosphate level below 2.5 mg/dL (0.81 mmol/L) in the first 72 h of ICU admission. Comparisons between baseline characteristics and outcomes and multivariate analysis were performed. Results. A total of 324 (39.27%) patients had hypophosphatemia during the first 72 h of ICU admission. Patients with hypophosphatemia tended to be younger, with lower APACHE-II, SOFA24, and ΔSOFA scores. They had a longer length of stay and length of ventilation, more prevalent prolonged ventilation, and decreased mortality. Their energy deficit was lower. There was no effect of hypophosphatemia severity on these results. In multivariate analysis, hypophosphatemia was not found to be statistically significant either with respect to mortality or survivor’s length of ventilation, but lower average daily energy deficit and SOFA24 were found to be statistically significant with respect to survivor’s length of ventilation. Conclusion. Hypophosphatemia had no effect on mortality or length of ventilation. Lower average daily energy deficit is associated with a longer survivor’s length of ventilation.

Published
2022
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7. Comparison of Mindray metabolic system and the GE S/5 metabolic system: Indirect calorimetry in critically ill, mechanically ventilated patients

Author

Guy Fishman, Ilya Kagan, Eyal Robinson, and Pierre Singer

Subjects
Nutrition and Dietetics, Endocrinology, Diabetes and Metabolism, Critical Illness, Humans, Reproducibility of Results, Calorimetry, Indirect, Basal Metabolism, Prospective Studies, Carbon Dioxide, Energy Metabolism, Respiration, Artificial
Abstract

Indirect calorimetry is the recommended, most accurate way to measure resting energy expenditure (REE) in critically ill, mechanically ventilated patients. We tested the agreement of two systems: the Mindray metabolic system (the system to be validated) and the GE S/5 metabolic system (the reference system). We also compared the measurements obtained to commonly used predictive equations.This was a prospective single-center study, in a general 16-bed intensive care unit, with critically ill, mechanically ventilated patients eligible to undergo indirect calorimetry. REE was measured successively during the same session with two 30-min measurements. The agreement and bias between oxygen consumption, carbon dioxide production, REE, and respiratory quotient obtained by Mindray and GE systems were compared using Bland-Altman plots. A priori we defined an acceptable within-method error to be 20% or less and an acceptable between-methods error to be 30% or less, according to Critchley and Critchley.Forty measurements were performed with 16 participants. All measurements were included in the final analysis. The mean REE was 2478 ± 650 kcal/d for the GE system and 2166 ± 415 kcal/d for the Mindray system (P ˂ 0.0001), for a difference of 12.6%. This difference in REE is related to the variations between the two devices in both oxygen consumption and carbon dioxide production.The Mindray metabolic system, compared to the GE S/5 metabolic system (the reference method used), measured REE with a mean difference of 12.6%. The Mindray-measured REE was within an error limit we defined a priori.

Published
2021

10. Two-dimensional photonic crystals for mid-infrared quantum dot intersublevel emission

Author

Audrey Miard, Stéphane Guilet, Estelle Homeyer, Xavier Checoury, Isabelle Sagnes, Aristide Lemaître, Sébastien Sauvage, Julien Houel, Philippe Boucaud, Guy Fishman, Remi Braive, and Stéphane Laurent

Subjects
Fabrication, business.industry, Chemistry, Energy level splitting, Physics::Optics, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Wavelength, Optics, Membrane, Quantum dot, Lattice (order), Emissivity, Optoelectronics, business, Photonic crystal
Abstract

We have fabricated two-dimensional photonic crystals for the mid-infrared spectral range. These photonic crystals are engineered in order to show optical modes in resonance with quantum dot intersublevel transitions. A novel fabrication technique was developed to obtain suspended membranes in a planar geometry. The membranes are 3 μm thick and the lattice periodicities vary between 3.5 μm to 6.5 μm. We show that the photonic crystals modes can be probed by the room temperature emissivity using a photomodulation technique. Bloch-modes of the photonic crystals are observed around 11 μm wavelength. (© 2009 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published
2009

11. Germanium-based nanophotonic devices: Two-dimensional photonic crystals and cavities

Author

Bruno Ghyselen, Yves Campidelli, Daniel Bouchier, Philippe Boucaud, Sébastien Sauvage, Daniel Bensahel, Sylvain David, Xavier Checoury, X. Li, Guy Fishman, Olivier Kermarrec, T.-P. Ngo, Takeshi Akatsu, C. Richtarch, and M. El Kurdi

Subjects
Photoluminescence, Materials science, business.industry, Photonic integrated circuit, Metals and Alloys, Nanophotonics, Physics::Optics, chemistry.chemical_element, Germanium, Surfaces and Interfaces, Yablonovite, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Optics, chemistry, Materials Chemistry, Direct and indirect band gaps, Photonics, business, Photonic crystal
Abstract

Two-dimensional photonic crystals are promising structures for photonic applications. Here, we show that the optical properties of two-dimensional photonic crystal membranes fabricated from silicon-on-insulator substrates can be probed at room temperature by the internal continuous wave photoluminescence of Ge/Si self-assembled islands. Quality factors up to 15 000, limited by the spectrometer resolution, are measured. We also show that two-dimensional photonic crystals can be fabricated as well with germanium-on-insulator substrates by using the same processing techniques. The optical properties of these two-dimensional photonic crystals can be probed by the room-temperature photoluminescence associated with the direct band gap of the bulk Ge layer. Enhanced resonant extraction efficiency can be obtained for wavelengths longer than 1.55 μm. The quality factors of H1 hexagonal cavities are found in good agreement with those obtained by finite-difference time domain calculations.

Published
2008

12. Two-dimensional photonic crystals with pure germanium-on-insulator

Author

Olivier Kermarrec, M. El Kurdi, Xavier Checoury, Daniel Bensahel, Bruno Ghyselen, Sylvain David, Guy Fishman, and Philippe Boucaud

Subjects
Photoluminescence, Materials science, Silicon, business.industry, Filling factor, Physics::Optics, chemistry.chemical_element, Insulator (electricity), Germanium, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Optics, chemistry, Lattice (order), Optoelectronics, Direct and indirect band gaps, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, business, Photonic crystal
Abstract

We have investigated pure germanium two-dimensional photonic crystals. The photonic crystals which exhibit resonances in the near infrared spectral range were fabricated on germanium-on-insulator substrates using standard silicon-based processing. The germanium-on-insulator substrate consists of a thin layer of pure germanium-on-oxide deposited on a silicon substrate. The optical properties are probed by the direct band gap optical recombination of pure germanium at room temperature. Resonant optical modes are evidenced between 1.68 and 1.53 μm in different type of hexagonal cavities (H1–H5). The spectral position of the modes is controlled by the lattice periodicity and air filling factor of the photonic crystals. Close to the Ge band edge, the quality factors are limited by the bulk material absorption.

Published
2008

13. Fast decoherence of slowly relaxing polarons in semiconductor InAs quantum dots

Author

Guy Fishman, Jean-Michel Ortega, S. Sauvage, F. Bras, Philippe Boucaud, Jean-Michel Gérard, Laboratoire de Chimie Physique D'Orsay (LCPO), and Université Paris-Sud - Paris 11 (UP11)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Condensed Matter::Quantum Gases, Physics, Quantum decoherence, Rabi cycle, Condensed matter physics, Condensed Matter::Other, Phonon, Dephasing, Relaxation (NMR), General Physics and Astronomy, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Polaron, 01 natural sciences, 010305 fluids & plasmas, Quantum dot, Excited state, 0103 physical sciences, Condensed Matter::Strongly Correlated Electrons, [PHYS.PHYS.PHYS-CHEM-PH]Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph], 010306 general physics
Abstract

We report on polaron dynamic measurements in InAs/GaAs semiconductor quantum dots. The polaron dynamics is monitored by transient nonlinear spectroscopy by recording the transmission variation as a function of the pulse area of an infrared picosecond excitation. A non-monotonous transmission is observed for pulse areas larger than a π pulse. We attribute this transmission dependence with pulse area to a signature of damped optical Rabi oscillation of polarons. The damping of the Rabi oscillation is modeled by two level optical Bloch equations. A short dephasing time T2 around 5 ps is deduced for the resonantly excited polaron, one order of magnitude smaller than the relaxation time. We show that the decoherence of the polaron state is not limited by its slow relaxation but rather by the fast dephasing of its phonon component.

Published
2005

14. Pump–probe analysis of polaron decay in InAs/GaAs self-assembled quantum dots

Author

Jean-Michel Ortega, Guy Fishman, F. Bras, P. Boucaud, Jean-Michel Gérard, and Sébastien Sauvage

Subjects
Materials science, Condensed matter physics, Relaxation (NMR), Substrate (electronics), Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, Polaron, Molecular physics, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Wavelength, Quantum dot, Picosecond, Condensed Matter::Strongly Correlated Electrons, Spectroscopy, Absorption (electromagnetic radiation)
Abstract

We report on polaron decay in InAs/GaAs self-assembled quantum dots. The polarons are probed by pump–probe spectroscopy through their optical intersublevel absorption around 62 meV (20 μm wavelength). A T1 polaron lifetime of the order of tens of picosecond is deduced from the low-temperature pump–probe measurements. We show that a long-lived component can be additionally observed on the pump–probe measurements. The spectral dependence of this long-lived component is, however, not correlated to the polaron absorption. It is thus not a signature of polaron relaxation quenching. The origin of this long-lived component is attributed to the two-phonon absorption of the bulk GaAs substrate.

Published
2005

15. Energy-band structure in strained silicon: A 20-band k⋅p and Bir–Pikus Hamiltonian model

Author

Frédéric Aniel, Nicolas Cavassilas, Guy Fishman, and Soline Richard

Subjects
Physics, Condensed matter physics, Band gap, General Physics and Astronomy, Strained silicon, Brillouin zone, Pseudopotential, Condensed Matter::Materials Science, symbols.namesake, Dispersion relation, symbols, Direct and indirect band gaps, Hamiltonian (quantum mechanics), Electronic band structure
Abstract

A strain Bir–Pikus Hamiltonian Hst, associated with a 20-band sp3s* k⋅p Hamiltonian Hkp, is used to describe the valence band and the first two conduction bands all over the Brillouin zone. Because the local (in k space) deformation potentials Ⅺu and Ⅺd used in pseudopotential method are unusable in k⋅p theory, we show that taking into account the Bir–Pikus parameters (a, b) of the Brillouin zone center in the Hst Hamiltonian allows one to describe the dispersion relation in the whole Brillouin zone. The method is applied to strained Si on a relaxed Si1−xGex alloy. The values of the energy band gap, and of the Δ2−4 conduction band splitting between the four equivalent in-plane valleys Δ4 and the two valleys along the growth direction Δ2 are in very good agreement with those reported in other publications. The small value of the spin-orbit splitting in silicon is taken explicitly into account. We show that the valence band splitting is consequently not proportional to the stress.

Published
2003

16. Polaron relaxation in InAs/GaAs self-assembled quantum dots

Author

Ricardo P. S. M. Lobo, F. Bras, F. Glotin, Jean-Michel Ortega, Rui Prazeres, Sébastien Sauvage, Guy Fishman, P. Boucaud, and Jean-Michel Gérard

Subjects
Condensed matter physics, Phonon, Chemistry, Relaxation (NMR), Resonance, Electron, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, Polaron, Electronic, Optical and Magnetic Materials, Condensed Matter::Materials Science, Far infrared, Quantum dot, Condensed Matter::Strongly Correlated Electrons, Spectroscopy
Abstract

Polaron dynamics in n-doped InAs/GaAs self-assembled quantum dots is investigated using far infrared pump-probe spectroscopy around 22 μm wavelength of the s-p intersublevel transition. Despite the strong coupling between the confined electron and the phonon continuum, forming a priori an everlasting polaron, we show experimentally that the polaron actually relaxes over a tens-of-picoseconds time range even at detuning far away from the phonon resonance. Measured decay times scale from 45 ps to 70 ps at low temperature depending on the transition energy. The energy dependence of this relaxation time is consistent with the polaron nature of the elementary excitation in InAs/GaAs self-assembled quantum dots. As the temperature increases, the polaron decay time slightly decreases, with still a value of 37 ps at 300 K. The experiment shows that the polaron relaxation is driven by the instability of its one-phonon component. It is consistent with a phonon part disintegrating into two acoustic phonons as proposed theoretically by Li, Nakayama and Arakawa in 1999 [4].

Published
2003

17. Full-band matrix solution of the Boltzmann transport equation and electron impact ionization in GaAs

Author

Nicolas Cavassilas, Robert Adde, Guy Fishman, and Frédéric Aniel

Subjects
Physics, Drift velocity, Function (mathematics), Condensed Matter Physics, Boltzmann equation, Electronic, Optical and Magnetic Materials, Impact ionization, Distribution function, Ionization, Electric field, Quantum mechanics, Materials Chemistry, Electrical and Electronic Engineering, Atomic physics, Electron ionization
Abstract

A direct matrix solution of the Boltzmann transport equation is developed to investigate impact ionization and other hot carrier phenomena in compound semiconductor devices. The model is applied to GaAs. A full-band calculation of the semiconductor structure is performed using k · p theory. An original determination of the distribution function in k-space as a function of electric field and temperature is achieved. The dependence of the ionization rate on energy, of the drift velocity and of the ionization coefficient on electric field are in good agreement with Monte Carlo data at 300 K and validate the modeling approach. The variation of the impact ionization coefficient on temperature and electric field in GaAs is discussed.

Published
2002

18. CdTe/CdMnTe lateral superlattices grown on (001) C vicinal substrates

Author

F. Michelini, Guy Fishman, A. Wasiela, L. Marsal, Henri Mariette, Laboratoire de Spectrométrie Physique (LSP), Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Institut des Matériaux, de Microélectronique et des Nanosciences de Provence (IM2NP), and Aix Marseille Université (AMU)-Université de Toulon (UTLN)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[PHYS]Physics [physics], Photoluminescence, Condensed matter physics, Chemistry, Quantum wire, Superlattice, Condensed Matter Physics, Cadmium telluride photovoltaics, Inorganic Chemistry, Condensed Matter::Materials Science, Modulation, Materials Chemistry, Ground state, Vicinal, Molecular beam epitaxy
Abstract

We have investigated the optical properties of quantum wire arrays grown on vicinal surfaces with lateral period of 180 A. Due to the specificity of the CdTe, for which the preferential orientations of step edges during the growth are along the (1 0 0) direction, vicinal substrates misoriented around the (1 0 0) direction are used. The 1D periodic potential modulation in CdTe/CdMnTe tilted superlattice is evidenced experimentally by the energy redshift of the photoluminescence observed when the superlattice is vertical. Such a behavior of the ground state in the 1D structure is accounted quantitatively by a theoretical approach which uses a sinusoidal modulation potential to describe the lateral confinement.

Published
2000

19. Giant piezoelectric effect in GaN self-assembled quantum dots

Author

Bruno Daudin, Guy Feuillet, J. Simon, Jean-Luc Rouvière, Guy Fishman, N. T. Pelekanos, and F. Widmann

Subjects
Materials science, Photoluminescence, Nanostructure, business.industry, Band gap, General Engineering, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Piezoelectricity, Spectral line, Condensed Matter::Materials Science, Quantum dot, Optoelectronics, Emission spectrum, business, Visible spectrum
Abstract

We observe in strained GaN self-assembled quantum dots grown on an AlN layer, a dramatic modification of the optical emission spectra as the dot size varies. In “large” quantum dots with an average height of 4.1 nm, the photoluminescence (PL) peak is centered at 2.95 eV, nearly 0.5 eV below the bulk GaN bandgap. We attribute this enormous redshift to a giant 5.5 MV cm−1 piezoelectric field present in our dots. Temperature-dependent PL studies reveal the strongly zero-dimensional character of this QD system and are consistent with an intrinsic PL mechanism.

Published
1999

20. Infrared absorption in Si–Si1−Ge –Si quantum wells

Author

Guy Fishman and R. Oszwal̶dowski

Subjects
Valence (chemistry), Materials science, Condensed matter physics, Infrared, Infrared spectroscopy, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, Thermal conduction, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Condensed Matter::Materials Science, Valence band, Conduction band, Quantum well
Abstract

The eight-band k · p method and the envelope function approximation is used to describe the infrared inter-subband absorption in Si–Si1−xGex–Si quantum wells. The valence and conduction bands are explicitly taken into account leading to an accurate description of the mixing of the conduction and valence band functions. Both as-grown and interdiffused (annealed) quantum wells are discussed.

Published
1999

21. Exciton Rydberg in T-shaped quantum wires

Author

Guy Fishman and Dirk Brinkmann

Subjects
Physics, symbols.namesake, Condensed matter physics, Quantum wire, Exciton, Rydberg atom, Quantum point contact, Rydberg formula, symbols, Electronic structure, Atomic physics, Quantum, Biexciton
Published
1997

22. Spin-Orbit Engineering of Semiconductor Heterostructures

Author

Guy Fishman, Federico Bottegoni, T. L. H. Nguyen, Alberto Ferrari, Henri-Jean Drouhin, and Jean-Eric Wegrowe

Subjects
Physics, Classical mechanics, Spintronics, Probability current, Semiclassical physics, Context (language use), Orbit (control theory), Wave function, Quantum, Spin-½
Abstract

Spin transport and dynamics is one of the crucial issues of spintronics, regardless of whether the system of interest is magnetic or nonmagnetic: semiconductors are of special interest because in such systems the charge carrier dynamics can be accurately treated through single-particle approximation, making use of the precise knowledge of wavefunctions. Here the single-electron, possibly spin-dependent wavefunction is well suited to provide reliable fully quantum mechanical models, or to derive semiclassical theoretical models, which eventually can be extended to other kinds of systems. In this context transport operators play a key role and, in particular, the probability current is a fundamental concept in quantum mechanics, which connects the wave-like description of a quasi-particle to the notion of transport current.

Published
2013

23. Discontinuous envelope function in semiconductor heterostructures

Author

Guy Fishman, T. L. Hoai Nguyen, Federico Bottegoni, Henri-Jean Drouhin, and Jean-Eric Wegrowe

Subjects
Physics, Discontinuity (linguistics), Current (mathematics), Quantum mechanics, Probability current, Heterojunction, Derivative, Boundary value problem, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Thermal conduction, Quantum tunnelling
Abstract

Based on a proper definition of the current operators for non-quadratic Hamiltonians, we derive the expression for the transport current which involves the derivative of the imaginary part of the free-electron current, highlighting peculiarities of the extra terms. The expression of the probability current, when Spin-Orbit Interaction (SOI) is taken into account, requires a reformulation of the boudary conditions. This is especially important for tunnel heterojunctions made of non-centrosymmetric semiconductors. Therefore, we consider a model case: tunneling of conduction electrons through a [110]-oriented GaAs barrier. The new boundary conditions are reduced to two set of equations: the first one expresses the discontinuity of the envelope function at the interface while the other one expresses the discontinuity of the derivative of the envelope function.

Published
2013

24. Transport properties related to spin-orbit interaction

Author

Thi Lam Hoai Nguyen, Federico Bottegoni, Jean-Eric Wegrowe, Guy Fishman, Alberto Ferrari, and Henri-Jean Drouhin

Subjects
Physics, Discontinuity (linguistics), Classical mechanics, Condensed matter physics, Probability current, Heterojunction, Boundary value problem, Spin–orbit interaction, Electron, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Thermal conduction, Quantum tunnelling
Abstract

We propose a novel set of boundary conditions, based on the continuity of a generalized velocity and on the continuity of the probability current at the interface of heterojunctions, which is well suited to construct the solution of the tunneling problem when spin-orbit interaction is taken into account. We illustrate this procedure in a model case: tunneling of conduction electrons through a [110]-oriented GaAs barrier. In that case, the new boundary conditions reduce to two set of equations: the first one expresses the discontinuity of the envelope function at the interface while the other one is close to the standard condition on the derivative of the envelope function.

Published
2013

25. Hole subbands in strained quantum-well semiconductors in [hhk] directions

Author

Guy Fishman

Subjects
Physics, Quantization (physics), Semiconductor, Condensed matter physics, Plane (geometry), business.industry, Quantum mechanics, Zero (complex analysis), business, Quantum well, Spin-½
Abstract

We give a general formulation for both the Luttinger and the Bir-Pikus Hamiltonians with a spin quantization parallel to the [hhk] direction. This allows one to obtain the hole subbands for any growth direction parallel to [hhk]. The results are given explicitly in the [001], [111], [110], and [112] directions. We show that the axial approximation is exact if the wave vector parallel to the plane (hhk) is equal to zero for (hhk)=(001) (a well-known result) or (111) but that this is not strictly true for (110) or (112). We clarify the link between the axial mass and the cyclotron mass. We then present a method of numerical calculation that is suited to any asymmetric quantum well. We discuss the efficiency and the limits of the Broido-Sham transformation and we show that this transformation is not applicable for the [112] direction even as a rough approximation. Finally, we give the hole subband dispersion in strained ${\mathrm{Cd}}_{1\mathrm{\ensuremath{-}}\mathit{x}}$${\mathrm{Mn}}_{\mathit{x}}$Te-CdTe-${\mathrm{Cd}}_{1\mathrm{\ensuremath{-}}\mathit{x}}$${\mathrm{Mn}}_{\mathit{x}}$Te quantum wells where, according to the growth direction, the quantum well may or may not be piezoelectric.

Published
1995

26. Intersubband spectroscopy of doped and undoped GaN/AlN quantum wells grown by molecular-beam epitaxy

Author

D. Le Si Dang, Maria Tchernycheva, F. H. Julien, Guy Fishman, Eva Monroy, A. Helman, Edith Bellet-Amalric, Alain Lusson, D. Jalabert, E. Warde, Bruno Daudin, and Kh. Moumanis

Subjects
Photoluminescence, Materials science, Physics and Astronomy (miscellaneous), Condensed matter physics, Condensed Matter::Other, business.industry, Doping, Exchange interaction, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Epitaxy, Electron localization function, Condensed Matter::Materials Science, Condensed Matter::Superconductivity, Optoelectronics, Condensed Matter::Strongly Correlated Electrons, Spectroscopy, business, Quantum well, Molecular beam epitaxy
Abstract

We report experimental and theoretical results on interband and intersubband transitions in GaN quantum wells with strained AlN barriers. All of the samples are grown by molecular-beam epitaxy on sapphire (0001) substrates. The results show that even at room temperature, strong electron localization occurs in the plane of the quantum wells due to the combined effect of monolayer thickness fluctuations and the high internal field in the GaN layers. We also demonstrate that the intersubband absorption is systematically blueshifted in n-doped quantum wells with respect to nominally undoped samples as a result of strong many-body effects, namely the exchange interaction. The results for both undoped and doped quantum wells are in good agreement with simulations.

Published
2003

27. Non-linear infrared properties of InAs/GaAs self-assembled quantum dots

Author

Jean-Michel Gérard, Guy Fishman, F. Glotin, P. Boucaud, Sébastien Sauvage, Michel Broquier, Rui Prazeres, F. Bras, Jean-Michel Ortega, T. Brunhes, Claudine Crépin, Ricardo P. S. M. Lobo, Institut d'électronique fondamentale (IEF), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Laboratoire pour l'utilisation du rayonnement électromagnétique (LURE), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-MENRT-Centre National de la Recherche Scientifique (CNRS), Nanophysique et Semiconducteurs (NPSC), PHotonique, ELectronique et Ingénierie QuantiqueS (PHELIQS), Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Institut de Recherche Interdisciplinaire de Grenoble (IRIG), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Institut de Recherche Interdisciplinaire de Grenoble (IRIG), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Laboratoire de Photophysique Moléculaire (PPM), Centre National de la Recherche Scientifique (CNRS)-Université Paris-Sud - Paris 11 (UP11), Laboratoire de Physique du Solide (LPS), Centre National de la Recherche Scientifique (CNRS)-Ecole Superieure de Physique et de Chimie Industrielles de la Ville de Paris (ESPCI Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Ecole Superieure de Physique et de Chimie Industrielles de la Ville de Paris (ESPCI Paris), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Physics, Nuclear and High Energy Physics, Photon, Condensed matter physics, business.industry, Infrared, Dephasing, Resonance, 02 engineering and technology, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, 021001 nanoscience & nanotechnology, Polaron, 01 natural sciences, 7. Clean energy, Noise (electronics), [CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, Quantum dot, Quantum dot laser, 0103 physical sciences, Optoelectronics, 010306 general physics, 0210 nano-technology, business, Instrumentation, ComputingMilieux_MISCELLANEOUS
Abstract

We have investigated various optical non-linearities in resonance with intersublevel transitions in InAs/GaAs self-assembled quantum dots. The infrared pulses were delivered by CLIO at Orsay (France) and enabled (i) the evidence of second-harmonic generation with giant susceptibilities, (ii) the first measurement of a 70 ps long polaron lifetime through noise improved pump-probed experiments and (iii) a photon echo experiment with a 15 ps long extracted dephasing time.

Published
2003

28. Practical rules for spin-orbit engineering of [110]-oriented III-V heterostructures

Author

Federico Bottegoni, Henri-Jean Drouhin, Jean-Eric Wegrowe, and Guy Fishman

Subjects
Physics, Condensed matter physics, Condensed Matter::Other, Heterojunction, Electron, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Gallium arsenide, chemistry.chemical_compound, symbols.namesake, chemistry, Quantum mechanics, symbols, Boundary value problem, Hamiltonian (quantum mechanics)
Abstract

New boundary conditions are derived for tunnel-heterojunctions, where the effective Hamiltonian is a generic power of the momentum-operator. A novel expression of probability-current operator, which can be also applied in presence of the D'yakonov-Perel (DP) Hamiltonian, has to be used. We test our technique on the interface between two semi-infinite media, with on one side a free-electron-like material and on the other side the [110]- oriented GaAs barrier.

Published
2012

29. Probability- and spin-current operators for effective Hamiltonians

Author

Federico Bottegoni, Guy Fishman, Jean-Eric Wegrowe, Henri-Jean Drouhin, Laboratoire des Solides Irradiés (LSI), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Dipartimento Fis, University Milan, Institut d'électronique fondamentale (IEF), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), and Università degli Studi di Milano = University of Milan (UNIMI)

Subjects
Physics, Power series, Spintronics, Condensed Matter::Other, [SPI.MECA]Engineering Sciences [physics]/Mechanics [physics.med-ph], Operator theory, Spin current, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, SEMICONDUCTORS, 01 natural sciences, 010305 fluids & plasmas, Electronic, Optical and Magnetic Materials, Power (physics), Term (time), Momentum, Condensed Matter::Materials Science, Theoretical physics, Quantum electrodynamics, 0103 physical sciences, 010306 general physics, Quantum tunnelling
Abstract

International audience; We present a systematic construction of the probability-and spin-current operators, based on a momentum power expansion of effective Hamiltonians. These operators play an essential role in transport problems related to semiconductor heterostructures, in particular when spin-orbit interaction is taken into account. The result, valid whatever the momentum power and including the linear (Bychkov-Rashba) term as well as the cubic (Dresselhaus or D'yakonov-Perel) term, is of special importance for spintronics.

Published
2012

30. Energy and temperature dependence of electron effective masses in silicon

Author

Jean-Luc Autran, Frédéric Aniel, Nicolas Cavassilas, and Guy Fishman

Subjects
Effective mass (solid-state physics), Condensed matter physics, Solid-state physics, Silicon, Chemistry, Monte Carlo method, General Physics and Astronomy, chemistry.chemical_element, Charge carrier, Electronic structure, Electron, Thermal conduction
Abstract

A k⋅p model is used to theoretically investigate the energy and lattice temperature dependence of both transverse and longitudinal “curvature” electron effective masses in silicon. The temperature dependence of the carrier concentration conduction effective masses in the range of 10–550 K is also examined. Our results highlight the energy dependence of the longitudinal effective mass, usually considered to be equal to the band-edge effective mass, which varies from 0.917 to 1.6m0 when the carrier energy ranges from the bottom of the conduction band up to 1.5 eV. This energy dependence should have a significant impact on electronic transport simulations using drift–diffusion, hydrodynamic, or Monte Carlo methods, particularly for hot-carrier phenomena in microelectronic devices.

Published
2002

31. Optical gain in single tensile-strained germanium photonic wire

Author

M. de Kersauson, R. Jakomin, Guy Fishman, Isabelle Sagnes, M. El Kurdi, Xavier Checoury, Sébastien Sauvage, Sylvain David, Grégoire Beaudoin, and Philippe Boucaud

Subjects
Optical amplifier, Amplified spontaneous emission, Materials science, Silicon, business.industry, chemistry.chemical_element, Germanium, Atomic and Molecular Physics, and Optics, Optical pumping, Optics, chemistry, Optoelectronics, Spontaneous emission, Photonics, business, Electron-beam lithography
Abstract

We have investigated the optical properties of tensile-strained germanium photonic wires. The photonic wires patterned by electron beam lithography (50 μm long, 1 μm wide and 500 nm thick) are obtained by growing a n-doped germanium film on a GaAs substrate. Tensile strain is transferred in the germanium layer using a Si₃N₄ stressor. Tensile strain around 0.4% achieved by the technique corresponds to an optical recombination of tensile-strained germanium involving light hole band around 1690 nm at room temperature. We show that the waveguided emission associated with a single tensile-strained germanium wire increases superlinearly as a function of the illuminated length. A 20% decrease of the spectral broadening is observed as the pump intensity is increased. All these features are signatures of optical gain. A 80 cm⁻¹ modal optical gain is derived from the variable strip length method. This value is accounted for by the calculated gain material value using a 30 band k · p formalism. These germanium wires represent potential building blocks for integration of nanoscale optical sources on silicon.

Published
2011

32. Probability current in presence of Spin-Orbit Interaction

Author

Henri-Jean Drouhin, Jean-Eric Wegrowe, Guy Fishman, and Federico Bottegoni

Subjects
Power series, Physics, symbols.namesake, Standard definition, Quantum mechanics, Probability current, symbols, Symmetrization, Spin–orbit interaction, Electron, Hamiltonian (quantum mechanics), Hermitian matrix, Mathematical physics
Abstract

We propose a procedure, based on momentum power series expansion Hamiltonian of nth general order, to obtain a coherent expression of the probability current operator that is valid also when Spin-Orbit Interaction (SOI) terms are included. We prove that we recover the standard definition when the free electron-like term is included in the Hamiltonian, but when taking into account higher order Spin-Orbit Interaction (SOI) terms, a more general definition of the probability current operator is mandatory, due to its different symmetrization, compared to the Hermitian velocity operator expression.

Published
2011

33. Stimulated emission in single tensile-strained Ge photonic wire

Author

M. El Kurdi, Xavier Checoury, Guy Fishman, R. Jakomin, Sylvain David, Grégoire Beaudoin, Isabelle Sagnes, Sébastien Sauvage, M. de Kersauson, and Philippe Boucaud

Subjects
Materials science, business.industry, chemistry.chemical_element, Germanium, Optical pumping, chemistry, Ultimate tensile strength, Optoelectronics, Stimulated emission, Photonics, business, Layer (electronics), Intensity (heat transfer), Doppler broadening
Abstract

We have investigated the room temperature optical properties of 50 µm length, 11 µm large and 500 nm thick tensile-strained germanium photonic wires. Tensile strain is transferred in the germanium layer using a Si 3 N 4 film stressor. An optical recombination of tensile-strained germanium involving light hole band is observed around 1690 nm at room temperature corresponding to a strain magnitude around 0.4%. We show that the waveguided emission associated with a single tensile-strained germanium wire increases superlinearly as a function of the illuminated length. A decrease of the spectral broadening is observed as the pump intensity is increased. A 80 cm−1 modal optical gain is derived from the variable strip length method.

Published
2011

34. Spin currents in semiconductors: Redefinition and counterexample

Author

Henri-Jean Drouhin, Guy Fishman, and Jean-Eric Wegrowe

Subjects
Physics, Spin polarization, Operator (physics), Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Momentum, symbols.namesake, Spin wave, Quantum mechanics, symbols, Spin Hall effect, Hamiltonian (quantum mechanics), Spin-½, Mathematical physics, Counterexample
Abstract

We show that effective Hamiltonians in solids lead to specific problems when dealing with spin-orbit interaction. We prove that the usual construction, where the velocity operator is simply deduced from the velocity calculated using the Hamilton relation, has a restricted validity and that there is an absolute necessity to modify the standard current-tensor definition. We derive proper symmetrized expressions in the case of a Hamiltonian which has linear and cubic dependence versus momentum components.

Published
2011

36. Mechanical tensile strain engineering of Ge for gain achievement

Author

R. Jakomin, G. Beaudoin, Guy Fishman, H. Bertin, M. El Kurdi, W. Daney de Marcillac, M. de Kersauson, Isabelle Sagnes, Alain Bosseboeuf, Sébastien Sauvage, Philippe Boucaud, and Emile Martincic

Subjects
Materials science, Photoluminescence, business.industry, Band gap, chemistry.chemical_element, Germanium, Laser, Bead test, law.invention, Strain engineering, chemistry, law, Optoelectronics, Direct and indirect band gaps, business, Lasing threshold
Abstract

We show that the recombination energy of the direct band gap photoluminescence of germanium can be controlled by an external mechanical stress. The deformation is provided by an apparatus used for blister test. This strain leads to a significant change of the room temperature direct band gap recombination of germanium. An energy red-shift up to 60 meV is demonstrated for the room temperature photoluminescence of a thin germanium membrane (125 nm wavelength shift from 1535 to 1660 nm). This photoluminescence shift is correlated to the inplane tensile strain present in the film. A biaxial tensile strain larger than 0.6 % is achieved by this method. The wavelength shift is correlated to the predicted band gap shift as obtained from a 30 band k. p formalism. An excellent agreement is obtained between the experimental band gap shift and the theoretical one. This mechanical deformation allows to approach the direct band gap condition for germanium. We will discuss the possibility to achieve lasing with n-doped layers and the application of an external mechanical stress.

Published
2010

37. Self-assembled InGaN quantum dots grown by molecular-beam epitaxy

Author

N. T. Pelekanos, Christoph Adelmann, Bruno Daudin, J. Simon, Guy Feuillet, and Guy Fishman

Subjects
Materials science, Photoluminescence, Physics and Astronomy (miscellaneous), Condensed matter physics, business.industry, Wide-bandgap semiconductor, Epitaxy, Vacuum deposition, Quantum dot, Optoelectronics, Self-assembly, business, Quantum well, Molecular beam epitaxy
Abstract

Self-assembled InGaN islands were grown by molecular-beam epitaxy on GaN, following a Stranski–Krastanow growth mode. Atomic force microscopy revealed that their dimensions were small enough to expect zero-dimensional quantum effects: the islands were typically 27 nm wide and 2.9 nm high. Strong blue-violet photoluminescence of the dots is observed, persisting up to room temperature. The temperature dependence of the photoluminescence is analyzed and compared to that of InGaN quantum well and bulk samples.

Published
2000

38. Tensile-strain and n-type doping of germanium-on-insulator : Towards a Ge laser

Author

T. Kociniewski, Guy Fishman, Olivier Kermarrec, T.-P. Ngo, R. Jakomin, Xavier Checoury, Isabelle Sagnes, Daniel Bensahel, Sébastien Sauvage, Philippe Boucaud, Dominique Débarre, M. El Kurdi, Jean-Francois Damlencourt, and Jacques Boulmer

Subjects
Photoluminescence, Materials science, Silicon, business.industry, Doping, chemistry.chemical_element, Germanium, Laser, Semiconductor laser theory, law.invention, chemistry, law, Optoelectronics, Electronic band structure, business, Photonic crystal
Abstract

Using a 30 band k.p formalism, we calculate the band structure and the optical gain of tensilely-strained germanium. We show that the room temperature emission of germanium-on-insulator can be significantly enhanced by n-doping of germanium.

Published
2009

39. Spin trajectory along an evanescent loop in zinc-blende semiconductors

Author

T. L. Hoai Nguyen, Guy Fishman, and Henri-Jean Drouhin

Subjects
Physics, Spin states, Condensed matter physics, Spins, Spin polarization, Point reflection, Spin Hall effect, Condensed Matter::Strongly Correlated Electrons, Wave vector, Condensed Matter Physics, Quantum tunnelling, Electronic, Optical and Magnetic Materials, Spin-½
Abstract

Due to the absence of inversion symmetry, spin-orbit interaction leads to a very particular topology of the evanescent states in zinc-blende semiconductors, which may consist of loops connecting different spin sub-bands at the zone center. The spin-vector motion along such loops is analytically or numerically studied. A surprising picture emerges from this detailed analysis. Namely, the two spin sub-bands do not correspond to opposite spin states near the Brillouin-zone center and merge with identical spins at larger wave vector. This determines the spin-filtering capabilities of the semiconductor barrier.

Published
2009

40. Probability current related to a non-quadratic Hamiltonian: application to semiconductors

Author

Jean-Eric Wegrowe, T. L. Hoai Nguyen, Guy Fishman, and Henri-Jean Drouhin

Subjects
Physics, Condensed matter physics, Spin polarization, Spintronics, Spins, Probability current, Spin engineering, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter::Materials Science, symbols.namesake, Spin Hall effect, symbols, Condensed Matter::Strongly Correlated Electrons, Hamiltonian (quantum mechanics), Quantum tunnelling
Abstract

In non-centrosymmetric semiconductors with zinc-blende structure grown along the [110] crystallographic direction, electrons with up and down spins undergo different quantum phase shifts upon tunneling, which can be wieved as resulting from spin precession around a complex magnetic field. There is no spin filtering but a pure spin dephasing. The phase shift of the transmitted wave is proportional to the overall barrier-material thickness. We show that a device incorporating a number of resonant tunnel barriers constitutes an efficient quantum-phase shifter.

Published
2009

41. Spin rotation, spin filtering, and spin transfer in directional tunneling through barriers in noncentrosymmetric semiconductors

Author

Henri-Jean Drouhin, Jean-Eric Wegrowe, T. L. Hoai Nguyen, and Guy Fishman

Subjects
Physics, Spin filtering, Condensed matter physics, Spin polarization, business.industry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Semiconductor, Spinplasmonics, Spin Hall effect, Spin transfer, Degeneracy (mathematics), business, Quantum tunnelling
Abstract

We discuss possible tunneling phenomena associated with complex wave vectors along directions where the spin degeneracy is lifted in noncentrosymetric semiconductors. We show that the result drastically depends on the direction. In the [110] direction, no solution can be calculated in the usual way assuming that the wave function and its derivative are continuous. A method for obtaining physical solutions is given and consequences are drawn. As a result, there is no spin filtering in such a direction but the spin undergoes a precession through the barrier with the rotation angle being proportional to the barrier thickness. In a direction close to [001] we find a spin-filter effect in close agreement with the model discussed by Perel' et al. [Phys. Rev. B 67, 201304(R) (2003)].

Published
2009

42. Influence of surface roughness on the conductivity of metallic and semiconducting quasi-two-dimensional structures

Author

Daniel Calecki and Guy Fishman

Subjects
Metal, Materials science, Condensed matter physics, Electrical resistivity and conductivity, visual_art, Surface roughness, visual_art.visual_art_medium, Surface finish, Conductivity
Abstract

Etude theorique de la variation de la conductivite (σ) avec la forme et la longueur de correlation ζ de la fonction d'autocorrelation associee a la rugosite. La conductivite depend fortement du choix de la fonction d'autocorrelation pour ζ>>k F −1 , ou k F est le vecteur d'onde de Fermi. Pour les films metalliques, la variation moyenne de σ avec l'epaisseur d ne peut etre approximee par la loi en puissance, σαd s . Obtention d'effets similaires pour les puits quantiques semiconducteurs

Published
1991

43. Thermal emission of midinfrared GaAs photonic crystals

Author

Audrey Miard, Julien Houel, Stéphane Guilet, Xavier Checoury, Philippe Boucaud, Estelle Homeyer, Aristide Lemaître, Isabelle Sagnes, Sébastien Sauvage, Guy Fishman, and Rémy Braive

Subjects
Materials science, business.industry, Physics::Optics, Dielectric, Condensed Matter Physics, Yablonovite, Molecular physics, Spectral line, Electronic, Optical and Magnetic Materials, Wavelength, Thermal radiation, Lattice (order), Emissivity, Optoelectronics, business, Photonic crystal
Abstract

We have investigated the thermal emission of midinfrared dielectric photonic crystals. We show that the optical properties of the photonic crystals can be probed by the photomodulation of the room-temperature thermal emission. The technique is illustrated in the case of membrane-type two-dimensional photonic crystals. The GaAs-based photonic crystal membranes were fabricated by wafer bonding followed by standard e-beam lithography and etching processes. Thermal radiation collected from the surface of the sample allows one to investigate experimentally a broad spectral range from 500 to $1500\text{ }{\text{cm}}^{\ensuremath{-}1}$. Zone-center modes at the $\ensuremath{\Gamma}$ point coupled to the radiative continuum are evidenced around $900\text{ }{\text{cm}}^{\ensuremath{-}1}$ ($11\text{ }\ensuremath{\mu}\text{m}$ wavelength). The lattice periodicity of the photonic crystals allows one to spectrally tailor the emissivity. Three-dimensional finite-difference time-domain modeling is used to explain the thermal radiation spectra of the photonic crystal characterized by optical sources embedded in the whole structure.

Published
2008

44. Model for energy transfer from porous silicon nanocrystallites to SiH surface vibrations at low temperature

Author

S. Létant and Guy Fishman

Subjects
Coupling, Photoluminescence, Materials science, Silicon, chemistry, chemistry.chemical_element, Crystallite, Atomic physics, Porous silicon, Diatomic molecule, Spectral line, Morse potential
Abstract

In contrast to oxidized silicon layers, photoluminescence in fresh porous silicon layers is quenched when the temperature decreases. Moreover, the spectra become structured below 100 K and display two large holes centered at 630 and 750 nm, respectively. We explain these experimental results by a model of electric dipole-dipole coupling between the photocreated carriers in the silicon crystallites and Si-H surface vibrations. We demonstrate here that the Morse potential, which is often employed to represent diatomic molecules, is not valid in our case. We compare the energy levels and the oscillator strengths of a Morse well and of a topologically similar well with a square base and adjustable slope: although the energy levels can be matched quite closely, the oscillator strengths are drastically different. We show that only the second well accounts for the experimental results for both energies and oscillator strengths.

Published
1998

45. Rougemailleet al.Reply

Author

Guy Fishman, Henri-Jean Drouhin, N. Rougemaille, Andreas K. Schmid, and S. Richard

Subjects
Physics, General Physics and Astronomy
Published
2006

46. Band-edge alignment ofSiGe∕Siquantum wells andSiGe∕Siself-assembled islands

Author

Philippe Boucaud, Guy Fishman, Sébastien Sauvage, and M. El Kurdi

Subjects
Physics, Condensed matter physics, Band gap, Quantum point contact, Resonant-tunneling diode, Heterojunction, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Silicon-germanium, Condensed Matter::Materials Science, chemistry.chemical_compound, symbols.namesake, chemistry, Quantum dot, symbols, Hamiltonian (quantum mechanics), Quantum well
Abstract

We report on the energy band gap and band lineup of $\mathrm{SiGe}∕\mathrm{Si}$ heterostructures either in the case of coherently strained quantum wells or in the case of $\mathrm{SiGe}∕\mathrm{Si}$ self-assembled islands. We take into account the strain field and the quantum confinement effects through an accurate description of the conduction band including the $\ensuremath{\Delta}$ and $L$ bands. The strain field is calculated using a microscopic valence force field theory. The conduction-band diagram and energies are obtained from a 30-band $\mathbf{k}∙\mathbf{p}$ Hamiltonian accounting for the strain through the Bir-Pikus Hamiltonian. The band-edge description is first given for biaxially strained pseudomorphic $\mathrm{SiGe}$ layers. In $\mathrm{SiGe}$ quantum wells grown on relaxed silicon, the band line-up switches from type I to type II depending on the value of the average valence band offset. Applying the 30-band formalism to the case of heterostructures grown on relaxed silicon germanium buffer layers indicates that a better agreement with experimental data is obtained for a valence-band offset value $\mathrm{\ensuremath{\Delta}}{E}_{v}=0.54x$ where $x$ is the Ge composition. For this parameter, a type-II band lineup is thus expected for all compositions of pseudomorphic $\mathrm{SiGe}$/relaxed Si heterostructures. For $\mathrm{GeSi}∕\mathrm{Si}$ islands, we take into account the strain relaxation in the surrounding Si matrix. A type-II band lineup is predicted for all Ge compositions. The near-infrared interband recombination energy of the islands is calculated as a function of their $\mathrm{SiGe}$ composition.

Published
2006

47. Inconsistency of standard k.p band parameters

Author

Guy Fishman, Marc-Henri Serre, and Henri-Jean Drouhin

Subjects
Optics, business.industry, Optical engineering, Mathematical analysis, Perturbation (astronomy), business, Electronic band structure, Mathematics
Abstract

Using third and forth order perturbation, we have derived main GaAs band parameters (such as EP ) from both experimental results (m *, g *, ...) and theoretical results (overall band structure from Cohen-Chelikowski pseudo-potential calculations). The analysis of the set of data leads to a drastic change to the "admitted" value of some parameters (E'P ) from the only experimental results and show inconsistency if theoretical results are furthermore taken into account.© (2006) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published
2006

48. Band diagrams of Si and Ge quantum wells via the 30-bandk∙pmethod

Author

Frédéric Aniel, Guy Fishman, and Soline Richard

Subjects
Physics, Condensed matter physics, Scattering, Heterojunction, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Brillouin zone, symbols.namesake, Effective mass (solid-state physics), Band diagram, Density of states, symbols, Hamiltonian (quantum mechanics), Quantum well
Abstract

We report on a method to calculate the band diagram of quantum wells using a 30-band $\mathbf{k}\mathbf{∙}\mathbf{p}$ Hamiltonian. The subbands are calculated over the entire Brillouin zone. Such an approach is useful not only for a valence band description but also for a conduction band description when the energy minimum is not located at the center of the Brillouin zone as is the case for Si, SiGe, and Ge. The method also provides information about confinement in $L$ or $X$ valleys for III-V heterostructures. Such a formalism is useful for both optical calculation and for transport modeling. As an illustration, the scattering rates for holes confined in a quantum well are calculated. The accurate density of states provided by the 30-band $\mathbf{k}\mathbf{∙}\mathbf{p}$ method gives access to very different scattering rates as compared with those obtained following an effective mass approach.

Published
2005

50. Spin-Dependent Tunneling In III-V Semiconductors

Author

Guy Fishman, Nicolas Rougemaille, Soline Richard, and Henri-Jean M. Drouhin

Subjects
Physics, Evanescent wave, Semiconductor, Condensed matter physics, business.industry, Band gap, Physics::Optics, Physics::Atomic Physics, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, business, Wave function, Spin dependent tunneling, Quantum tunnelling
Abstract

We calculate evanescent waves in GaAs‐like III‐V semiconductors throughout the forbidden band gap taking into account both the absence of inversion center and the spin‐orbit coupling. We find that the evanescent energy bands are spin‐split and that the evanescent wave functions only exist in limited energy and wave‐vector domains. Such tunnel barriers can be used as solid‐state spin injectors.

Published
2005

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