文件名称:source_2007_03_05_WSI
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naxtnano的应用范围包括量子阱,量子线,量子点,纳米线,纳米微晶体,量子级联激光器
(QCL),共振隧穿二极管(RTD),高电子迁移率晶体管(HEMT),Nano-MOSFETs,
LEDs,激光器(e.g. VCSEL),高效太阳能板,有机半导体,离子敏场效应管(ISFET)以及
石墨烯,“应变硅,“低含氮化合物”等新型材料。是一款集合了k.p方法、自洽求解泊松-薛定谔方程等物理模型与一体的半导体光电子行业软件。-naxtnano range of applications including quantum wells, quantum wires, quantum dots, nanowires, nanocrystals, quantum cascade laser (QCL), resonant tunneling diode (RTD), high electron mobility transistors (HEMT), Nano-MOSFETs , LEDs, lasers (eg VCSEL), efficient solar panels, organic semiconductors, ion-sensitive field effect transistor (ISFET) and graphene, " strained silicon" low nitrogen-containing compound " and other new materials. kp is a collection of methods, self-consistent solution of Poisson- Schrodinger equation and other physical models and the integration of semiconductor optoelectronic industry software.
(QCL),共振隧穿二极管(RTD),高电子迁移率晶体管(HEMT),Nano-MOSFETs,
LEDs,激光器(e.g. VCSEL),高效太阳能板,有机半导体,离子敏场效应管(ISFET)以及
石墨烯,“应变硅,“低含氮化合物”等新型材料。是一款集合了k.p方法、自洽求解泊松-薛定谔方程等物理模型与一体的半导体光电子行业软件。-naxtnano range of applications including quantum wells, quantum wires, quantum dots, nanowires, nanocrystals, quantum cascade laser (QCL), resonant tunneling diode (RTD), high electron mobility transistors (HEMT), Nano-MOSFETs , LEDs, lasers (eg VCSEL), efficient solar panels, organic semiconductors, ion-sensitive field effect transistor (ISFET) and graphene, " strained silicon" low nitrogen-containing compound " and other new materials. kp is a collection of methods, self-consistent solution of Poisson- Schrodinger equation and other physical models and the integration of semiconductor optoelectronic industry software.
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下载文件列表
CBR
...\Calc_CBR_states.f90
...\CBR_routine.f90
...\control_CBR.f90
...\mod_CBR.f90
common
......\ges_modules.f90
......\set_dimension.f90
control_routines
................\control_magnetic.f90
................\control_numeric.f90
................\control_optics.f90
................\flow_control.f90
................\mod_numeric_control.f90
................\mod_pass_over.f90
................\strain_control.f90
current_block
.............\current_block.f90
.............\current_block_auxiliaries
.............\.........................\get_current.f90
.............\.........................\treat_cur_fermi.f90
.............\.........................\update_current_contacts.f90
.............\get_mobility_tensor.f90
.............\matrix_vector_multiplication
.............\............................\current_routines.f90
.............\mod_current.f90
.............\recombination_models
.............\....................\calc_quant_recombination.f90
.............\....................\get_intrinsic_dens.f90
.............\....................\recombination.f90
.............\....................\rspon_qw_fast.f90
.............\setup_current
.............\.............\1D_current.f90
.............\.............\1D_integrate_current.f90
.............\.............\2D_current.f90
.............\.............\3D_current.f90
.............\.............\current.f90
.............\.............\deallocate_current.f90
.............\.............\get_transport_on_guent.f90
.............\.............\scale_current.f90
.............\.............\set_dirichlet_current.f90
current_poisson
...............\current_poisson.f90
...............\current_poisson_coupled
...............\.......................\current_poisson_coupled.f90
...............\.......................\functionals_newton_coupled.f90
...............\.......................\setup
...............\.......................\.....\1D_setup_currentmatrix.f90
...............\.......................\.....\2D_setup_currentmatrix.f90
...............\.......................\.....\3D_setup_currentmatrix.f90
...............\.......................\.....\3D_setup_currentmatrix_aniso.f90
...............\.......................\.....\functionals_coupled.f90
...............\.......................\.....\shortcut_current.f90
database.in
db_keys.in
densities
.........\1D_add_interface_states.f90
.........\auxiliaries
.........\...........\1D_kp_densities.f90
.........\...........\2D_kp_densities.f90
.........\...........\3D_kp_densities.f90
.........\...........\sg_densities.f90
.........\densities.f90
.........\deriv_densities.f90
.........\dopant_density.f90
.........\special_densities
.........\.................\1D_calc_special_dens.f90
.........\.................\1D_get_special_densities.f90
.........\.................\1D_sg_special_densities.f90
.........\.................\1D_special_densities.f90
DFT
...\3D_dot_DFT.f90
...\DFT_auxiliary_routines.f90
...\DFT_correlation_potentials.f90
...\DFT_exchange_potentials.f90
...\DFT_linear_poisson.f90
...\DFT_spin_interpolation.f90
electronic_structure
....................\auxiliaries_to_extract_info
....................\...........................\1D_get_kind_hole.f90
....................\...........................\extract_kp_parameters.f90
....................\...........................\extract_sg_parameters.f90
....................\brillouin_zone_integration
....................\..........................\1D_get_dim_2D_BZ.f90
....................\..........................\gendos_2D.f
....................\..........................\get_k_points.f90
....................\..........................\mod_parameters_for_kpar_max.f90
....................\calculate_eigenstates.f90
....................\calc_kp_sg_eigenvalues
....................\......................\calculate_kp_eigenvalues.f90
....................\......................\calculate_sg_eigenvalues.f90
....................\calc_new_kp_states
....................\..................\determine_range_for_kpar.f90
....................\..................\update_kp.f90
....................\kp_