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51	One dimensional quantum mechanical transport in double-gate MOSFET / Man, Tsz Yin. January 2003 (has links) Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2003. / Includes bibliographical references. Also available in electronic version. Access restricted to campus users.
52	Resonant power MOSFET drivers for LED lighting / Tuladhar, Looja R. January 2009 (has links) Thesis (M.S.)--Youngstown State University, 2009. / Includes bibliographical references (leaves 44-45). Also available via the World Wide Web in PDF format.
53	Investigation of electrical characteristics of III-V MOS devices with silicon interface passivation layer Zhu, Feng, 1978- 10 September 2012 (has links) To overcome the issues of mobility degradation and charge trapping in silicon high-κ MOSFET, a stacked Y₂O₃(top)/HfO2(bottom) gate dielectric on silicon substrate has been developed. Compared to the HfO₂ reference, the new dielectric shows similar scalability, but superior channel mobility and device reliability. The mobility improvement can be attributed to reduced remote phonon scattering, which is associated with the smaller ionic polarization of Y₂O₃, and the suppressed coulomb scattering due to less electron trapping in the bulk of high-κ layer, and reduced metal impurities in the substrate. The passivation mechanisms for the silicon IPL passivation technique in GaAs/[alpha]-Si IPL/high-κ MOS system have been investigated. We demonstrate the [alpha]-Si IPL thickness dependence and substrate type dependence of interface state density (Dit) for GaAs MOS capacitors. The interface state density is strongly correlated to the thickness and quality of un-oxidized Si IPL and its interaction with the underlying substrate. The results can be explained by the models related to the quantum well narrowing or the reduced local trap density as the unoxidized Si IPL layer thickness decreases. By using optimal Si IPL thickness (~10 Å), GaAs MOS devices can achieve the same interface quality, as its silicon counterpart. Using Si IPL to unpin the surface Fermi level, the selfaligned depletion-mode and enhancement-mode GaAs n-MOSFETs are demonstrated. In addition, the charge trapping and wear-out characteristics of the GaAs/Si IPL/HfO2/TaN MOS devices are systematically investigated. High performance In0.53Ga0.47As nMOSFETs with Si IPL and HfO2 gate oxide have been demonstrated. We systematically investigate the impacts of 1) Source/Drain activation temperature, 2) post deposition annealing (PDA) temperature, 3) In[subscrip 0.53]Ga[subscript 0.47]As channel doping concentration, 4) channel thickness and 5) Si IPL thickness on the transistor performances. With the [mu]m, V[subscript d]=50 mV), drive current of 158 mA/mm (L[subscript g]=5 [mu]m, V[subscript gs]=V[subscript th]+2 V, V[subscript d]=2.5 V), and the peak effective channel mobility of 1034 cm2/V-s. InP nMOSFETs with Si IPL and HfO₂ have been demonstrated. The effects of Si IPL on the transistor performances and reliability characteristics are investigated. It is found that even through InP is a forgiving channel material with respect to surface Fermi level pinning, applying silicon IPL still improves the transistor performance and reliability. But the choice of Si IPL is critical for device design. Both in-sufficient passivation and excessive Si IPL should be avoided. optimal combination of these impacting factors, excellent device characteristics have been obtained, including the peak transconductance of 7.7 mS/mm (Lg=5 μm, Vd=50 mV), drive current of 158 mA/mm (Lg=5 [mu]m, Vgs=Vth+2 V, Vd=2.5 V), and the peak effective channel mobility of 1034 cm2/V-s. InP nMOSFETs with Si IPL and HfO₂ have been demonstrated. The effects of Si IPL on the transistor performances and reliability characteristics are investigated. It is found that even through InP is a forgiving channel material with respect to surface Fermi level pinning, applying silicon IPL still improves the transistor performance and reliability. But the choice of Si IPL is critical for device design. Both in-sufficient passivation and excessive Si IPL should be avoided. / text Dielectrics Gate array circuits
54	Voltage and temperature dependent gate capacitance and current model for high-K gate dielectric stack Fan, Yang-yu 28 August 2008 (has links) Not available / text Gate array circuits Dielectrics
55	Hafnium dioxide gate dielectrics, metal gate electrodes, and phenomena occurring at their interfaces Schaeffer, James Kenyon 28 August 2008 (has links) Not available / text Hafnium oxide Dielectrics Electrodes
56	Process development, characterization, transient relaxation, and reliability study of HfO₂ and HfSi(x)O(y) gate oxide for 45nm technology and beyond Akbar, Mohammad Shahariar 28 August 2008 (has links) Not available / text Hafnium oxide Dielectrics
57	Study of germanium MOSFETs with ultrathin high-k gate dielectrics Chen, Jer-hueih 28 August 2008 (has links) Not available / text Gate array circuits Dielectrics
58	The effects of silicon, nitrogen and oxygen incorporation and oxygen-scavenging technique on performances of hafnium-based gate dielectric MOSFETs Choi, Changhwan 28 August 2008 (has links) Not available / text Dielectrics
59	SiGe, SiGeC, and SiC MOSFET simulation, optimization, and fabrication Shi, Zhonghai 10 June 2011 (has links) Not available / text
60	Narrow-channel effect in MOSFET 李華剛, Li, Eddie Herbert. January 1990 (has links) published_or_final_version / Mathematics / Master / Master of Philosophy

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