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You searched for +publisher:"University of Florida" +contributor:("Muttalib, Khandker A."). Showing records 1 – 16 of 16 total matches.

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University of Florida

1. Abhinav, Siddhartha. Non-Equilibrium Thermal Transport in Nanowires with Rough Surfaces.

Degree: PhD, Physics, 2019, University of Florida

 Heat transport in low dimensional nanostructures is a topic of current interest because of the experimental observation of reduced thermal conductivity in surface-roughness dominated silicon… (more)

Subjects/Keywords: green  – nanowire  – non-equilibrium  – non-linear  – phonon  – silicon  – thermal

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APA (6th Edition):

Abhinav, S. (2019). Non-Equilibrium Thermal Transport in Nanowires with Rough Surfaces. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0054212

Chicago Manual of Style (16th Edition):

Abhinav, Siddhartha. “Non-Equilibrium Thermal Transport in Nanowires with Rough Surfaces.” 2019. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0054212.

MLA Handbook (7th Edition):

Abhinav, Siddhartha. “Non-Equilibrium Thermal Transport in Nanowires with Rough Surfaces.” 2019. Web. 22 Apr 2021.

Vancouver:

Abhinav S. Non-Equilibrium Thermal Transport in Nanowires with Rough Surfaces. [Internet] [Doctoral dissertation]. University of Florida; 2019. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0054212.

Council of Science Editors:

Abhinav S. Non-Equilibrium Thermal Transport in Nanowires with Rough Surfaces. [Doctoral Dissertation]. University of Florida; 2019. Available from: https://ufdc.ufl.edu/UFE0054212


University of Florida

2. Dutta, Sandipan. Classical Representation of Quantum Systems at Equilibrium.

Degree: PhD, Physics, 2013, University of Florida

 A quantum system at equilibrium is represented by an effective classical system, chosen to reproduce thermodynamic and structural properties. The motivation is to allow application… (more)

Subjects/Keywords: Approximation; Chemicals; Correlations; Effective temperature; Eggshells; Low temperature; Particle density; Pseudopotentials; Quantum field theory; Thermodynamics; dft  – fluids  – hnc  – quantum  – rpa

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APA (6th Edition):

Dutta, S. (2013). Classical Representation of Quantum Systems at Equilibrium. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0045418

Chicago Manual of Style (16th Edition):

Dutta, Sandipan. “Classical Representation of Quantum Systems at Equilibrium.” 2013. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0045418.

MLA Handbook (7th Edition):

Dutta, Sandipan. “Classical Representation of Quantum Systems at Equilibrium.” 2013. Web. 22 Apr 2021.

Vancouver:

Dutta S. Classical Representation of Quantum Systems at Equilibrium. [Internet] [Doctoral dissertation]. University of Florida; 2013. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0045418.

Council of Science Editors:

Dutta S. Classical Representation of Quantum Systems at Equilibrium. [Doctoral Dissertation]. University of Florida; 2013. Available from: https://ufdc.ufl.edu/UFE0045418


University of Florida

3. Ghosh, Siddhartha. Experimental Studies on Magnetic Nano Structures and Anti-Ferromagnetic Thin Films.

Degree: PhD, Physics, 2012, University of Florida

 Magnetic materials restricted in nano-scale gives rise to extremely fascinating behavior which is both important due to their potential applications as well as for their… (more)

Subjects/Keywords: Chromium; Conductivity; Electrons; Magnetic fields; Magnetism; Magnetization; Magnets; Superlattices; Temperature dependence; Thin films; physics

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APA (6th Edition):

Ghosh, S. (2012). Experimental Studies on Magnetic Nano Structures and Anti-Ferromagnetic Thin Films. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0044864

Chicago Manual of Style (16th Edition):

Ghosh, Siddhartha. “Experimental Studies on Magnetic Nano Structures and Anti-Ferromagnetic Thin Films.” 2012. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0044864.

MLA Handbook (7th Edition):

Ghosh, Siddhartha. “Experimental Studies on Magnetic Nano Structures and Anti-Ferromagnetic Thin Films.” 2012. Web. 22 Apr 2021.

Vancouver:

Ghosh S. Experimental Studies on Magnetic Nano Structures and Anti-Ferromagnetic Thin Films. [Internet] [Doctoral dissertation]. University of Florida; 2012. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0044864.

Council of Science Editors:

Ghosh S. Experimental Studies on Magnetic Nano Structures and Anti-Ferromagnetic Thin Films. [Doctoral Dissertation]. University of Florida; 2012. Available from: https://ufdc.ufl.edu/UFE0044864


University of Florida

4. Wagner, Christopher E. Equilibrium and Time-Dependent Properties of Quantum Impurity Systems.

Degree: PhD, Physics, 2018, University of Florida

 Quantum impurity problems provide a simple yet powerful way to study complex strongly correlated systems. The Kondo and Anderson models for an impurity attached to… (more)

Subjects/Keywords: entanglement  – group  – kondo  – model  – numerical  – renormalization

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APA (6th Edition):

Wagner, C. E. (2018). Equilibrium and Time-Dependent Properties of Quantum Impurity Systems. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0053961

Chicago Manual of Style (16th Edition):

Wagner, Christopher E. “Equilibrium and Time-Dependent Properties of Quantum Impurity Systems.” 2018. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0053961.

MLA Handbook (7th Edition):

Wagner, Christopher E. “Equilibrium and Time-Dependent Properties of Quantum Impurity Systems.” 2018. Web. 22 Apr 2021.

Vancouver:

Wagner CE. Equilibrium and Time-Dependent Properties of Quantum Impurity Systems. [Internet] [Doctoral dissertation]. University of Florida; 2018. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0053961.

Council of Science Editors:

Wagner CE. Equilibrium and Time-Dependent Properties of Quantum Impurity Systems. [Doctoral Dissertation]. University of Florida; 2018. Available from: https://ufdc.ufl.edu/UFE0053961


University of Florida

5. Chakrabarty, Sankha Subhra. Quantum Effects in Axion Dark Matter and Caustic Rings.

Degree: PhD, Physics, 2019, University of Florida

 Axions or axion-like particles are highly motivated candidates for dark matter. They are often treated as classical fields in the literature. It is assumed that… (more)

Subjects/Keywords: astrophysics  – darkmatter

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APA (6th Edition):

Chakrabarty, S. S. (2019). Quantum Effects in Axion Dark Matter and Caustic Rings. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0055761

Chicago Manual of Style (16th Edition):

Chakrabarty, Sankha Subhra. “Quantum Effects in Axion Dark Matter and Caustic Rings.” 2019. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0055761.

MLA Handbook (7th Edition):

Chakrabarty, Sankha Subhra. “Quantum Effects in Axion Dark Matter and Caustic Rings.” 2019. Web. 22 Apr 2021.

Vancouver:

Chakrabarty SS. Quantum Effects in Axion Dark Matter and Caustic Rings. [Internet] [Doctoral dissertation]. University of Florida; 2019. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0055761.

Council of Science Editors:

Chakrabarty SS. Quantum Effects in Axion Dark Matter and Caustic Rings. [Doctoral Dissertation]. University of Florida; 2019. Available from: https://ufdc.ufl.edu/UFE0055761


University of Florida

6. Nasrollahi, Zahra. Spectroscopoic Studies of Polymers in Transmissive/Absorptive Electrochromic Devices, and Doped Graphite.

Degree: PhD, Physics, 2014, University of Florida

 Electrochromic polymers (ECPs) exhibit reversible optical modulation in a wide spectral range as a function of an externally applied voltage. In this work, ECPs have… (more)

Subjects/Keywords: Charge carriers; Conductivity; Dielectric materials; Doping; Electronics; Electrons; Graphite; Polymers; Reflectance; Temperature dependence; electrochromic  – polymer  – transmissive

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APA (6th Edition):

Nasrollahi, Z. (2014). Spectroscopoic Studies of Polymers in Transmissive/Absorptive Electrochromic Devices, and Doped Graphite. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0045420

Chicago Manual of Style (16th Edition):

Nasrollahi, Zahra. “Spectroscopoic Studies of Polymers in Transmissive/Absorptive Electrochromic Devices, and Doped Graphite.” 2014. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0045420.

MLA Handbook (7th Edition):

Nasrollahi, Zahra. “Spectroscopoic Studies of Polymers in Transmissive/Absorptive Electrochromic Devices, and Doped Graphite.” 2014. Web. 22 Apr 2021.

Vancouver:

Nasrollahi Z. Spectroscopoic Studies of Polymers in Transmissive/Absorptive Electrochromic Devices, and Doped Graphite. [Internet] [Doctoral dissertation]. University of Florida; 2014. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0045420.

Council of Science Editors:

Nasrollahi Z. Spectroscopoic Studies of Polymers in Transmissive/Absorptive Electrochromic Devices, and Doped Graphite. [Doctoral Dissertation]. University of Florida; 2014. Available from: https://ufdc.ufl.edu/UFE0045420


University of Florida

7. Yousuf, Shaon. Design Automation for Partially Reconfigurable Fpgas: Design Flows, Tools and Architectures.

Degree: PhD, Electrical and Computer Engineering, 2015, University of Florida

Subjects/Keywords: automation; co-design; dynamic; floorplanning; fpga; hardware-software; reconfiguration

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APA (6th Edition):

Yousuf, S. (2015). Design Automation for Partially Reconfigurable Fpgas: Design Flows, Tools and Architectures. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0049225

Chicago Manual of Style (16th Edition):

Yousuf, Shaon. “Design Automation for Partially Reconfigurable Fpgas: Design Flows, Tools and Architectures.” 2015. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0049225.

MLA Handbook (7th Edition):

Yousuf, Shaon. “Design Automation for Partially Reconfigurable Fpgas: Design Flows, Tools and Architectures.” 2015. Web. 22 Apr 2021.

Vancouver:

Yousuf S. Design Automation for Partially Reconfigurable Fpgas: Design Flows, Tools and Architectures. [Internet] [Doctoral dissertation]. University of Florida; 2015. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0049225.

Council of Science Editors:

Yousuf S. Design Automation for Partially Reconfigurable Fpgas: Design Flows, Tools and Architectures. [Doctoral Dissertation]. University of Florida; 2015. Available from: https://ufdc.ufl.edu/UFE0049225


University of Florida

8. Nartowt, Bradley J. Thermal and Electrical Nonlinear Currents Driven through a Nano-Bridge Bearing an Electron-Phonon Interaction.

Degree: PhD, Physics, 2017, University of Florida

Subjects/Keywords: dyson; efficiency; electron; electron-phonon; feynman; interaction; many-body; nanoelectronics; nonequilibrium; nonlinear; peltier; perturbation; phonon; resonant; seebeck; thermoelectricity

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APA (6th Edition):

Nartowt, B. J. (2017). Thermal and Electrical Nonlinear Currents Driven through a Nano-Bridge Bearing an Electron-Phonon Interaction. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0051342

Chicago Manual of Style (16th Edition):

Nartowt, Bradley J. “Thermal and Electrical Nonlinear Currents Driven through a Nano-Bridge Bearing an Electron-Phonon Interaction.” 2017. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0051342.

MLA Handbook (7th Edition):

Nartowt, Bradley J. “Thermal and Electrical Nonlinear Currents Driven through a Nano-Bridge Bearing an Electron-Phonon Interaction.” 2017. Web. 22 Apr 2021.

Vancouver:

Nartowt BJ. Thermal and Electrical Nonlinear Currents Driven through a Nano-Bridge Bearing an Electron-Phonon Interaction. [Internet] [Doctoral dissertation]. University of Florida; 2017. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0051342.

Council of Science Editors:

Nartowt BJ. Thermal and Electrical Nonlinear Currents Driven through a Nano-Bridge Bearing an Electron-Phonon Interaction. [Doctoral Dissertation]. University of Florida; 2017. Available from: https://ufdc.ufl.edu/UFE0051342


University of Florida

9. Roffman, David A. Resonant Surface Scattering on Nanowires.

Degree: PhD, Physics, 2016, University of Florida

For efficient thermoelectric devices there is a requirement for materials with low Advisors/Committee Members: HERSHFIELD,SELMAN PHILIP (committee chair), MUTTALIB,KHANDKER A (committee member), CHENG,HAI PING (committee member), PHILLPOT,SIMON R (committee member).

Subjects/Keywords: Atomic interactions; Atoms; Conceptual lattices; Cubic lattices; Geometry; Mean free path; Phonons; Resonance scattering; Spring constant; Thermal conductivity; thermal

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APA (6th Edition):

Roffman, D. A. (2016). Resonant Surface Scattering on Nanowires. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0050386

Chicago Manual of Style (16th Edition):

Roffman, David A. “Resonant Surface Scattering on Nanowires.” 2016. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0050386.

MLA Handbook (7th Edition):

Roffman, David A. “Resonant Surface Scattering on Nanowires.” 2016. Web. 22 Apr 2021.

Vancouver:

Roffman DA. Resonant Surface Scattering on Nanowires. [Internet] [Doctoral dissertation]. University of Florida; 2016. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0050386.

Council of Science Editors:

Roffman DA. Resonant Surface Scattering on Nanowires. [Doctoral Dissertation]. University of Florida; 2016. Available from: https://ufdc.ufl.edu/UFE0050386


University of Florida

10. Saha, Dipta. Magneto-Optical Properties of Narrow Gap Semiconductor Nanostructures.

Degree: PhD, Physics, 2014, University of Florida

I have theoretically studied different experiments for a range of III-V nanostructures Advisors/Committee Members: STANTON,CHRISTOPHER JAY (committee chair), MUTTALIB,KHANDKER A (committee member), TANNER,DAVID B (committee member), BOWERS,CLIFFORD RUSSELL (committee member).

Subjects/Keywords: Charge carriers; Conduction bands; Electronic structure; Electrons; Landau levels; Magnetic fields; Magnetism; Magnets; Semiconductors; Signals; opnmr  – optical  – photonics  – polarization  – properties  – spin  – spintronics

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APA (6th Edition):

Saha, D. (2014). Magneto-Optical Properties of Narrow Gap Semiconductor Nanostructures. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0046468

Chicago Manual of Style (16th Edition):

Saha, Dipta. “Magneto-Optical Properties of Narrow Gap Semiconductor Nanostructures.” 2014. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0046468.

MLA Handbook (7th Edition):

Saha, Dipta. “Magneto-Optical Properties of Narrow Gap Semiconductor Nanostructures.” 2014. Web. 22 Apr 2021.

Vancouver:

Saha D. Magneto-Optical Properties of Narrow Gap Semiconductor Nanostructures. [Internet] [Doctoral dissertation]. University of Florida; 2014. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0046468.

Council of Science Editors:

Saha D. Magneto-Optical Properties of Narrow Gap Semiconductor Nanostructures. [Doctoral Dissertation]. University of Florida; 2014. Available from: https://ufdc.ufl.edu/UFE0046468


University of Florida

11. Choi, Jinmyung. Random Matrix Ensembles with Soft-Confinement Potential.

Degree: PhD, Physics, 2010, University of Florida

 In this work, we study invariant-class of random matrix ensembles characterized by the asymptotic logarithmic soft-confinement potential, named lambda-ensembles. The suggestion is inspired by the… (more)

Subjects/Keywords: Correlations; Eigenvalues; Matrices; Natural logarithms; Polynomials; Sine function; Spectral energy distribution; Statistical discrepancies; Statistics; Universality

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APA (6th Edition):

Choi, J. (2010). Random Matrix Ensembles with Soft-Confinement Potential. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0041528

Chicago Manual of Style (16th Edition):

Choi, Jinmyung. “Random Matrix Ensembles with Soft-Confinement Potential.” 2010. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0041528.

MLA Handbook (7th Edition):

Choi, Jinmyung. “Random Matrix Ensembles with Soft-Confinement Potential.” 2010. Web. 22 Apr 2021.

Vancouver:

Choi J. Random Matrix Ensembles with Soft-Confinement Potential. [Internet] [Doctoral dissertation]. University of Florida; 2010. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0041528.

Council of Science Editors:

Choi J. Random Matrix Ensembles with Soft-Confinement Potential. [Doctoral Dissertation]. University of Florida; 2010. Available from: https://ufdc.ufl.edu/UFE0041528


University of Florida

12. Wang, Chungwei. Quantum Magnetooscillations near Classical and Quantum Phase Transitions.

Degree: PhD, Physics, 2011, University of Florida

 We study the density of states (DOS) and quantum magnetooscillations both in a three-dimensional (3D) and in quasi-two-dimensional (2D) strongly correlated systems near the ferromagnetic-type… (more)

Subjects/Keywords: Correlations; Critical points; Damping; Electrons; Landau levels; Magnetic fields; Magnetism; Magnets; Phase transitions; Self contained breathing apparatus; ferromagnetic  – magnetooscillations  – phase  – quantum  – quasiclassical

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APA (6th Edition):

Wang, C. (2011). Quantum Magnetooscillations near Classical and Quantum Phase Transitions. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0043755

Chicago Manual of Style (16th Edition):

Wang, Chungwei. “Quantum Magnetooscillations near Classical and Quantum Phase Transitions.” 2011. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0043755.

MLA Handbook (7th Edition):

Wang, Chungwei. “Quantum Magnetooscillations near Classical and Quantum Phase Transitions.” 2011. Web. 22 Apr 2021.

Vancouver:

Wang C. Quantum Magnetooscillations near Classical and Quantum Phase Transitions. [Internet] [Doctoral dissertation]. University of Florida; 2011. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0043755.

Council of Science Editors:

Wang C. Quantum Magnetooscillations near Classical and Quantum Phase Transitions. [Doctoral Dissertation]. University of Florida; 2011. Available from: https://ufdc.ufl.edu/UFE0043755


University of Florida

13. Douglas, Andrew. Electron Transport near the Anderson Transition.

Degree: PhD, Physics, 2009, University of Florida

 In this work we examined the probability distribution of conductances in three dimensional metals for signatures of the Anderson transition. To that end, we examined… (more)

Subjects/Keywords: Approximation; Boundary conditions; Differential equations; Eigenvalues; Electrons; Greens function; Impurities; Particle interactions; Probability distributions; Symmetry; anderson, function, gdmpk, green, transition

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APA (6th Edition):

Douglas, A. (2009). Electron Transport near the Anderson Transition. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0024407

Chicago Manual of Style (16th Edition):

Douglas, Andrew. “Electron Transport near the Anderson Transition.” 2009. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0024407.

MLA Handbook (7th Edition):

Douglas, Andrew. “Electron Transport near the Anderson Transition.” 2009. Web. 22 Apr 2021.

Vancouver:

Douglas A. Electron Transport near the Anderson Transition. [Internet] [Doctoral dissertation]. University of Florida; 2009. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0024407.

Council of Science Editors:

Douglas A. Electron Transport near the Anderson Transition. [Doctoral Dissertation]. University of Florida; 2009. Available from: https://ufdc.ufl.edu/UFE0024407


University of Florida

14. MISHRA,VIVEK. Fluctuation, Disorder and Inhomogeneity in Unconventional Superconductors.

Degree: PhD, Physics, 2011, University of Florida

 In this dissertation, I present the results of theoretical investigations of the effect of fluctuations Advisors/Committee Members: Hirschfeld, Peter J (committee chair), (more)

Subjects/Keywords: Critical temperature; Doping; Electrons; Fermi surfaces; Impurities; Inhomogeneity; Low temperature; Magnetic fields; Superconductors; Thermal conductivity; DISORDERED  – FERMI  – IRON  – MODELS  – NODE  – SUPERCONDUCTING  – SUPERFLUID  – THERMAL  – UNCONVENTIONAL  – UNDERDOPED

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APA (6th Edition):

MISHRA,VIVEK. (2011). Fluctuation, Disorder and Inhomogeneity in Unconventional Superconductors. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0042738

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Chicago Manual of Style (16th Edition):

MISHRA,VIVEK. “Fluctuation, Disorder and Inhomogeneity in Unconventional Superconductors.” 2011. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0042738.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

MLA Handbook (7th Edition):

MISHRA,VIVEK. “Fluctuation, Disorder and Inhomogeneity in Unconventional Superconductors.” 2011. Web. 22 Apr 2021.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Vancouver:

MISHRA,VIVEK. Fluctuation, Disorder and Inhomogeneity in Unconventional Superconductors. [Internet] [Doctoral dissertation]. University of Florida; 2011. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0042738.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Council of Science Editors:

MISHRA,VIVEK. Fluctuation, Disorder and Inhomogeneity in Unconventional Superconductors. [Doctoral Dissertation]. University of Florida; 2011. Available from: https://ufdc.ufl.edu/UFE0042738

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete


University of Florida

15. Watson, Glenn. Affine Quantization of Metric Variables.

Degree: PhD, Physics, 2008, University of Florida

 Our study concerns a novel scheme for the quantization of positive-definite matrix degrees of freedom of the type associated with the spacial part of the… (more)

Subjects/Keywords: Algebra; Curvature; Degrees of freedom; Distance functions; Hilbert spaces; Hypersurfaces; Mathematical vectors; Quantum mechanics; Scalars; Vector fields

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APA (6th Edition):

Watson, G. (2008). Affine Quantization of Metric Variables. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0022070

Chicago Manual of Style (16th Edition):

Watson, Glenn. “Affine Quantization of Metric Variables.” 2008. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0022070.

MLA Handbook (7th Edition):

Watson, Glenn. “Affine Quantization of Metric Variables.” 2008. Web. 22 Apr 2021.

Vancouver:

Watson G. Affine Quantization of Metric Variables. [Internet] [Doctoral dissertation]. University of Florida; 2008. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0022070.

Council of Science Editors:

Watson G. Affine Quantization of Metric Variables. [Doctoral Dissertation]. University of Florida; 2008. Available from: https://ufdc.ufl.edu/UFE0022070


University of Florida

16. Little, Jeffrey Scott. Projection Operator Formalism for Quantum Constraints.

Degree: PhD, Physics, 2007, University of Florida

 Motivated by several theoretical issues surrounding quantum gravity, a course of study has been implemented to gain insight into the quantization of constrained systems utilizing… (more)

Subjects/Keywords: Algebra; Coordinate systems; Equations of motion; Hilbert spaces; Mathematical vectors; Mathematics; Momentum; Physics; Quantum field theory; Quantum mechanics; constraint, projection, quantum

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APA (6th Edition):

Little, J. S. (2007). Projection Operator Formalism for Quantum Constraints. (Doctoral Dissertation). University of Florida. Retrieved from https://ufdc.ufl.edu/UFE0021671

Chicago Manual of Style (16th Edition):

Little, Jeffrey Scott. “Projection Operator Formalism for Quantum Constraints.” 2007. Doctoral Dissertation, University of Florida. Accessed April 22, 2021. https://ufdc.ufl.edu/UFE0021671.

MLA Handbook (7th Edition):

Little, Jeffrey Scott. “Projection Operator Formalism for Quantum Constraints.” 2007. Web. 22 Apr 2021.

Vancouver:

Little JS. Projection Operator Formalism for Quantum Constraints. [Internet] [Doctoral dissertation]. University of Florida; 2007. [cited 2021 Apr 22]. Available from: https://ufdc.ufl.edu/UFE0021671.

Council of Science Editors:

Little JS. Projection Operator Formalism for Quantum Constraints. [Doctoral Dissertation]. University of Florida; 2007. Available from: https://ufdc.ufl.edu/UFE0021671

.