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Electronic Nanodevices
| Electronic Nanodevices |
| Autore | Bartolomeo Antonio |
| Pubbl/distr/stampa | MDPI - Multidisciplinary Digital Publishing Institute, 2022 |
| Descrizione fisica | 1 electronic resource (240 p.) |
| Soggetto topico |
Technology: general issues
History of engineering & technology |
| Soggetto non controllato |
concentrator systems
GaInP/GaInAs/Ge multi-junction photovoltaics solar cells space triple-junction FeFET ferroelectric nonvolatile semiconductor memory SBT nanoantennas optics optoelectronic devices photovoltaic technology rectennas resistive memories thermal model heat equation thermal conductivity circuit simulation compact modeling resistive switching nanodevices power conversion efficiency MXenes electrodes additives HTL/ETL design of experiments GFET graphene high-frequency RF devices tolerance analysis molybdenum oxides green synthesis biological chelator additional capacity anodes lithium-ion batteries carbon nanotube junctionless tunnel field effect transistors chemical doping electrostatic doping NEGF simulation band-to-band tunneling switching performance nanoscale phosphorene black phosphorus nanoribbon edge contact contact resistance quantum transport NEGF metallization broadening zigzag carbon nanotube armchair-edge graphene nanoribbon quantum simulation sub-10 nm phototransistors photosensitivity subthreshold swing GaN HEMTs scaling electron mobility scattering polarization charge 2D materials rhenium selenides ReSe2 field-effect transistor pressure negative photoconductivity |
| ISBN | 3-0365-5022-4 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910619469603321 |
Bartolomeo Antonio
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| MDPI - Multidisciplinary Digital Publishing Institute, 2022 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Many Body Quantum Chaos
| Many Body Quantum Chaos |
| Autore | Wimberger Sandro |
| Pubbl/distr/stampa | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
| Descrizione fisica | 1 electronic resource (222 p.) |
| Soggetto topico | Research & information: general |
| Soggetto non controllato |
quantum chaos
decoherence Arnol’d cat classical limit correspondence principle cold atoms interacting fermions thermalization dynamical chaos Sinai oscillator quantum tunneling dissipation effective action quantum transport nonlinear Schrödinger equation Gross-Pitaevskii equation Schrödinger-Poisson equation Bose-Einstein condensate dark matter periodically kicked system Lorentzian potential topological horseshoe uniformly hyperbolicity sector condition fractal Weyl law survival probability correlation functions semiclassical approximation revival dynamics Morse oscillator atom-optics kicked rotor quantum resonance continuous-time quantum walks Bose–Einstein condensates quantum interference Aubry-André model correlation hole fluctuation theorems nonequilibrium statistical mechanics quantum thermodynamics phase transitions Dirac bosons mean field analysis adiabatic separation trapped ions Frenkel–Kontorova long–range interactions sine-Gordon kink quantum kicked rotor Anderson localisation dynamical localisation |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910557291003321 |
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Wimberger Sandro
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| Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Miniaturized Transistors, Volume II
| Miniaturized Transistors, Volume II |
| Autore | Filipovic Lado |
| Pubbl/distr/stampa | Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022 |
| Descrizione fisica | 1 electronic resource (352 p.) |
| Soggetto topico |
Research & information: general
Mathematics & science |
| Soggetto non controllato |
FinFETs
CMOS device processing integrated circuits silicon carbide (SiC) metal-oxide-semiconductor field-effect transistors (MOSFETs) solid state circuit breaker (SSCB) prototype circuit design GaN HEMT high gate multi-recessed buffer power density power-added efficiency 4H-SiC MESFET IMRD structure power added efficiency 1200 V SiC MOSFET body diode surge reliability silvaco simulation floating gate transistor control gate CMOS device active noise control vacuum channel mean free path vertical air-channel diode vertical transistor field emission particle trajectory model F-N plot space-charge-limited currents 4H-SiC MESFET simulation power added efficiency (PAE) new device three-input transistor T-channel compact circuit style CMOS compatible technology avalanche photodiode SPICE model bandwidth high responsivity silicon photodiode AlGaN/GaN HEMTs thermal simulation transient channel temperature pulse width gate structures band-to-band tunnelling (BTBT) tunnelling field-effect transistor (TFET) germanium-around-source gate-all-around TFET (GAS GAA TFET) average subthreshold swing direct source-to-drain tunneling transport effective mass confinement effective mass multi-subband ensemble Monte Carlo non-equilibrium Green's function DGSOI FinFET core-insulator gate-all-around field effect transistor GAA nanowire one-transistor dynamic random-access memory (1T-DRAM) polysilicon grain boundary electron trapping flexible transistors polymers metal oxides nanocomposites dielectrics active layers nanotransistor quantum transport Landauer-Büttiker formalism R-matrix method nanoscale mosfet quantum current surface transfer doping 2D hole gas (2DHG) diamond MoO3 V2O5 MOSFET reliability random telegraph noise oxide defects SiO2 split-gate trench power MOSFET multiple epitaxial layers specific on-resistance device reliability nanoscale transistor bias temperature instabilities (BTI) defects single-defect spectroscopy non-radiative multiphonon (NMP) model time-dependent defect spectroscopy |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910580205803321 |
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Filipovic Lado
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| Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Nanowire Field-Effect Transistor (FET)
| Nanowire Field-Effect Transistor (FET) |
| Autore | García-Loureiro Antonio |
| Pubbl/distr/stampa | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 |
| Descrizione fisica | 1 electronic resource (96 p.) |
| Soggetto topico | History of engineering & technology |
| Soggetto non controllato |
random dopant
drift-diffusion variability device simulation nanodevice screening Coulomb interaction III-V TASE MOSFETs Integration nanowire field-effect transistors silicon nanomaterials charge transport one-dimensional multi-subband scattering models Kubo–Greenwood formalism schrödinger-poisson solvers DC and AC characteristic fluctuations gate-all-around nanowire work function fluctuation aspect ratio of channel cross-section timing fluctuation noise margin fluctuation power fluctuation CMOS circuit statistical device simulation variability effects Monte Carlo Schrödinger based quantum corrections quantum modeling nonequilibrium Green’s function nanowire transistor electron–phonon interaction phonon–phonon interaction self-consistent Born approximation lowest order approximation Padé approximants Richardson extrapolation ZnO field effect transistor conduction mechanism metal gate material properties fabrication modelling nanojunction constriction quantum electron transport quantum confinement dimensionality reduction stochastic Schrödinger equations geometric correlations silicon nanowires nano-transistors quantum transport hot electrons self-cooling nano-cooling thermoelectricity heat equation non-equilibrium Green functions power dissipation |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Altri titoli varianti | Nanowire Field-Effect Transistor |
| Record Nr. | UNINA-9910557553303321 |
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García-Loureiro Antonio
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| Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Quantum Nonlocality
| Quantum Nonlocality |
| Autore | Vaidman Lev |
| Pubbl/distr/stampa | MDPI - Multidisciplinary Digital Publishing Institute, 2019 |
| Descrizione fisica | 1 electronic resource (238 p.) |
| Soggetto non controllato |
Stern–Gerlach experiment
channel entropy non-locality nonsignaling retro-causal channel communication complexity controlled-NOT Bell test quantum measurement quantum mechanics quantum transport semiconductor nanodevices optimization quantum correlation PR Box non-linear Schrödinger model retrocausality entanglement device-independent Einstein–Podolsky–Rosen argument quantum nonlocality parallel lives PR box nonlocal correlations hypothesis testing quantum bounds channel capacity Wigner-function simulations quantum correlations quantum pre- and post-selected systems local hidden variables density-matrix formalism collapse of the quantum state local polytope quantum teleportation of unknown qubit parity measurements uncertainty relations nonlocality hybrid entanglement selectivity filter p-value steering axioms for quantum theory no-signalling ion channels KS Box EPR steering local realism Non-contextuality inequality entropic uncertainty relation continuous-variable states nonlocal dissipation models Bell’s theorem tsallis entropy classical limit general entropies pigeonhole principle biological quantum decoherence discrete-variable states |
| ISBN | 3-03897-949-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910346840603321 |
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Vaidman Lev
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| MDPI - Multidisciplinary Digital Publishing Institute, 2019 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Quantum Transport in Mesoscopic Systems
| Quantum Transport in Mesoscopic Systems |
| Autore | Sánchez David |
| Pubbl/distr/stampa | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 |
| Descrizione fisica | 1 electronic resource (426 p.) |
| Soggetto topico | Technology: general issues |
| Soggetto non controllato |
quantum transport
quantum interference shot noise persistent current mesoscale and nanoscale physics Complementary Metal Oxide Semiconductor (CMOS) technology electron quantum optics photo-assisted noise charge and heat fluctuations time-dependent transport electron–photon coupling open quantum systems phonon transport nanostructured materials green’s functions density-functional tight binding Landauer approach, time-dependent transport graphene nanoribbons nonequilibrium Green’s function electronic transport thermal transport strongly correlated systems Landauer-Büttiker formalism Boltzmann transport equation time-dependent density functional theory electron–phonon coupling molecular junctions thermoelectric properties electron–vibration interactions electron–electron interactions thermoelectricity heat engines mesoscopic physics fluctuations thermodynamic uncertainty relations quantum thermodynamics steady-state dynamics nonlinear transport adiabatic quantum motors adiabatic quantum pumps quantum heat engines quantum refrigerators transport through quantum dots spin pump spin-orbit interaction quantum adiabatic pump interferometer geometric phase nonadiabaticity quantum heat pumping spin pumping relaxation time evolution quantum information entropy production Renyi entropy superconducting proximity effect Kondo effect spin polarization Anreev reflection conditional states conditional wavefunction Markovian and Non-Markovian dynamics stochastic Schrödinger equation quantum electron transport quantum dots fluctuation–dissipation theorem Onsager relations dynamics of strongly correlated quantum systems quantum capacitor local fermi liquids kondo effect coulomb blockade mesoscopic systems nanophysics quantum noise quantum pumping thermoelectrics heat transport |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910557142403321 |
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Sánchez David
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| Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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