SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000409446> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W2000409446 endingPage "1350001" @default.
W2000409446 startingPage "1350001" @default.
W2000409446 abstract "State-of-the-Art devices are approaching to the performance limit of traditional MOSFET as the critical dimensions are shrunk. Ultrathin fully depleted Silicon-on-Insulator transistors and multi-gate devices based on SOI technology are the best candidates to become a standard solution to overcome the problems arising from such aggressive scaling. Moreover, the flexibility of SOI wafers and processes allows the use of different channel materials, substrate orientations and layer thicknesses to enhance the performance of CMOS circuits. From the point of view of simulation, these devices pose a significant challenge. Simulations tools have to include quantum effects in the whole structure to correctly describe the behavior of these devices. The Multi-Subband Monte Carlo (MSB-MC) approach constitutes today's most accurate method for the study of nanodevices with important applications to SOI devices. After reviewing the main basis of MSB-MC method, we have applied it to answer important questions which remain open regarding ultimate SOI devices. In the first part of the chapter we present a thorough study of the impact of different Buried OXide (BOX) configurations on the scaling of extremely thin fully depleted SOI devices using a Multi-Subband Ensemble Monte Carlo simulator (MS-EMC). Standard thick BOX, ultra thin BOX (UTBOX) and UTBOX with ground plane (UTBOX+GP) solutions have been considered in order to check their influence on short channel effects (SCEs). The simulations show that the main limiting factor for downscaling is the DIBL and the UTBOX+GP configuration is the only valid one to downscale SGSOI transistors beyond 20 nm channel length keeping the silicon slab thickness above the theoretical limit of 5 nm, where thickness variability and mobility reduction would play an important role. In the second part, we have used the multisubband Ensemble Monte Carlo simulator to study the electron transport in ultrashort DGSOI devices with different confinement and transport directions. Our simulation results show that transport effective mass, and subband redistribution are the main factors that affect drift and scattering processes and, therefore, the general performance of DGSOI devices when orientation is changed" @default.
W2000409446 created "2016-06-24" @default.
W2000409446 creator A5022602734 @default.
W2000409446 creator A5035338599 @default.
W2000409446 creator A5041325493 @default.
W2000409446 creator A5063521537 @default.
W2000409446 date "2013-11-01" @default.
W2000409446 modified "2023-09-27" @default.
W2000409446 title "MONTE-CARLO SIMULATION OF ULTRA-THIN FILM SILICON-ON-INSULATOR MOSFETs" @default.
W2000409446 cites W1964123374 @default.
W2000409446 cites W1975600850 @default.
W2000409446 cites W1980583280 @default.
W2000409446 cites W1984626487 @default.
W2000409446 cites W198617275 @default.
W2000409446 cites W2002428226 @default.
W2000409446 cites W2017890687 @default.
W2000409446 cites W2018334459 @default.
W2000409446 cites W2026598034 @default.
W2000409446 cites W2034376607 @default.
W2000409446 cites W2035350880 @default.
W2000409446 cites W2040559176 @default.
W2000409446 cites W2056282143 @default.
W2000409446 cites W2078052109 @default.
W2000409446 cites W2079699561 @default.
W2000409446 cites W2083803899 @default.
W2000409446 cites W2093664183 @default.
W2000409446 cites W2096745437 @default.
W2000409446 cites W2098958226 @default.
W2000409446 cites W2102009606 @default.
W2000409446 cites W2106413365 @default.
W2000409446 cites W2108519226 @default.
W2000409446 cites W2115193611 @default.
W2000409446 cites W2119876076 @default.
W2000409446 cites W2131427072 @default.
W2000409446 cites W2132729131 @default.
W2000409446 cites W2134443440 @default.
W2000409446 cites W2145199392 @default.
W2000409446 cites W2155086273 @default.
W2000409446 cites W2159342577 @default.
W2000409446 cites W2161970376 @default.
W2000409446 cites W2162526738 @default.
W2000409446 cites W2167579733 @default.
W2000409446 cites W2625053524 @default.
W2000409446 doi "https://doi.org/10.1142/s0129156413500018" @default.
W2000409446 hasPublicationYear "2013" @default.
W2000409446 type Work @default.
W2000409446 sameAs 2000409446 @default.
W2000409446 citedByCount "0" @default.
W2000409446 crossrefType "journal-article" @default.
W2000409446 hasAuthorship W2000409446A5022602734 @default.
W2000409446 hasAuthorship W2000409446A5035338599 @default.
W2000409446 hasAuthorship W2000409446A5041325493 @default.
W2000409446 hasAuthorship W2000409446A5063521537 @default.
W2000409446 hasConcept C105795698 @default.
W2000409446 hasConcept C119599485 @default.
W2000409446 hasConcept C127413603 @default.
W2000409446 hasConcept C134146338 @default.
W2000409446 hasConcept C160671074 @default.
W2000409446 hasConcept C165801399 @default.
W2000409446 hasConcept C171250308 @default.
W2000409446 hasConcept C172385210 @default.
W2000409446 hasConcept C192562407 @default.
W2000409446 hasConcept C19499675 @default.
W2000409446 hasConcept C24326235 @default.
W2000409446 hasConcept C2524010 @default.
W2000409446 hasConcept C2778413303 @default.
W2000409446 hasConcept C33923547 @default.
W2000409446 hasConcept C41008148 @default.
W2000409446 hasConcept C46362747 @default.
W2000409446 hasConcept C49040817 @default.
W2000409446 hasConcept C53143962 @default.
W2000409446 hasConcept C544956773 @default.
W2000409446 hasConcept C99844830 @default.
W2000409446 hasConceptScore W2000409446C105795698 @default.
W2000409446 hasConceptScore W2000409446C119599485 @default.
W2000409446 hasConceptScore W2000409446C127413603 @default.
W2000409446 hasConceptScore W2000409446C134146338 @default.
W2000409446 hasConceptScore W2000409446C160671074 @default.
W2000409446 hasConceptScore W2000409446C165801399 @default.
W2000409446 hasConceptScore W2000409446C171250308 @default.
W2000409446 hasConceptScore W2000409446C172385210 @default.
W2000409446 hasConceptScore W2000409446C192562407 @default.
W2000409446 hasConceptScore W2000409446C19499675 @default.
W2000409446 hasConceptScore W2000409446C24326235 @default.
W2000409446 hasConceptScore W2000409446C2524010 @default.
W2000409446 hasConceptScore W2000409446C2778413303 @default.
W2000409446 hasConceptScore W2000409446C33923547 @default.
W2000409446 hasConceptScore W2000409446C41008148 @default.
W2000409446 hasConceptScore W2000409446C46362747 @default.
W2000409446 hasConceptScore W2000409446C49040817 @default.
W2000409446 hasConceptScore W2000409446C53143962 @default.
W2000409446 hasConceptScore W2000409446C544956773 @default.
W2000409446 hasConceptScore W2000409446C99844830 @default.
W2000409446 hasIssue "01" @default.
W2000409446 hasLocation W20004094461 @default.
W2000409446 hasOpenAccess W2000409446 @default.
W2000409446 hasPrimaryLocation W20004094461 @default.
W2000409446 hasRelatedWork W1484927282 @default.