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Dates: 2005 – 2009

You searched for subject:(Electrical phases). Showing records 1 – 9 of 9 total matches.

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University of Cincinnati

1. Novita, Deassy I. Evidence for Intermediate Phase in Solid Electrolyte Glasses.

Degree: PhD, Engineering : Electrical Engineering, 2009, University of Cincinnati

  Here we examine a dry solid electrolyte (AgI)x(AgPO3)1-x glasses in the 0 < x < 0.54 composition range, and provide evidence for existence of the three generic elastic… (more)

Subjects/Keywords: Chemistry; Electrical Engineering; Engineering; Materials Science; Physics; intermediate phases; electrolyte; solid electrolite; glasses; solid electrolyte glasses

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APA (6th Edition):

Novita, D. I. (2009). Evidence for Intermediate Phase in Solid Electrolyte Glasses. (Doctoral Dissertation). University of Cincinnati. Retrieved from http://rave.ohiolink.edu/etdc/view?acc_num=ucin1234751813

Chicago Manual of Style (16th Edition):

Novita, Deassy I. “Evidence for Intermediate Phase in Solid Electrolyte Glasses.” 2009. Doctoral Dissertation, University of Cincinnati. Accessed October 19, 2019. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1234751813.

MLA Handbook (7th Edition):

Novita, Deassy I. “Evidence for Intermediate Phase in Solid Electrolyte Glasses.” 2009. Web. 19 Oct 2019.

Vancouver:

Novita DI. Evidence for Intermediate Phase in Solid Electrolyte Glasses. [Internet] [Doctoral dissertation]. University of Cincinnati; 2009. [cited 2019 Oct 19]. Available from: http://rave.ohiolink.edu/etdc/view?acc_num=ucin1234751813.

Council of Science Editors:

Novita DI. Evidence for Intermediate Phase in Solid Electrolyte Glasses. [Doctoral Dissertation]. University of Cincinnati; 2009. Available from: http://rave.ohiolink.edu/etdc/view?acc_num=ucin1234751813


University of Florida

2. Kim, Hyo. Periodic Error in Heterodyne Interferometry Measurement, Uncertainty, and Elimination.

Degree: PhD, Mechanical Engineering - Mechanical and Aerospace Engineering, 2009, University of Florida

 PERIODIC ERROR IN HETERODYNE INTERFEROMETRY: MEASUREMENT, UNCERTAINTY, AND ELIMINATION The purpose of this study is to construct, test, and verify a new heterodyne displacement measuring… (more)

Subjects/Keywords: Beam splitting; Beat frequencies; Electrical phases; Error rates; Interferometers; Laser beams; Lasers; Light beams; Retroreflectors; Signals; aom, displacement, error, heterodyne, interferometer, periodic, polarization, uncertainty

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APA (6th Edition):

Kim, H. (2009). Periodic Error in Heterodyne Interferometry Measurement, Uncertainty, and Elimination. (Doctoral Dissertation). University of Florida. Retrieved from http://ufdc.ufl.edu/UFE0041110

Chicago Manual of Style (16th Edition):

Kim, Hyo. “Periodic Error in Heterodyne Interferometry Measurement, Uncertainty, and Elimination.” 2009. Doctoral Dissertation, University of Florida. Accessed October 19, 2019. http://ufdc.ufl.edu/UFE0041110.

MLA Handbook (7th Edition):

Kim, Hyo. “Periodic Error in Heterodyne Interferometry Measurement, Uncertainty, and Elimination.” 2009. Web. 19 Oct 2019.

Vancouver:

Kim H. Periodic Error in Heterodyne Interferometry Measurement, Uncertainty, and Elimination. [Internet] [Doctoral dissertation]. University of Florida; 2009. [cited 2019 Oct 19]. Available from: http://ufdc.ufl.edu/UFE0041110.

Council of Science Editors:

Kim H. Periodic Error in Heterodyne Interferometry Measurement, Uncertainty, and Elimination. [Doctoral Dissertation]. University of Florida; 2009. Available from: http://ufdc.ufl.edu/UFE0041110


University of Florida

3. Pramanick, Abhijit. On the Correlation of Dynamic Electric-Field-Induced Structural Changes and Piezoelectricity in Ferroelectric Ceramics.

Degree: PhD, Materials Science and Engineering, 2009, University of Florida

 Piezoelectric ceramics are used in various devices such as sensors and actuators for conversion of electrical signals into mechanical signals and vice versa. In order… (more)

Subjects/Keywords: Amplitude; Ceramic materials; Conceptual lattices; Domain walls; Electric fields; Electrical phases; Hysteresis; Mathematical variables; Nonlinearity; Wave diffraction; ceramics, diffraction, domains, ferroelectrics, hysteresis, nonlinearity, piezoelectrics, pzt, synchrotron

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APA (6th Edition):

Pramanick, A. (2009). On the Correlation of Dynamic Electric-Field-Induced Structural Changes and Piezoelectricity in Ferroelectric Ceramics. (Doctoral Dissertation). University of Florida. Retrieved from http://ufdc.ufl.edu/UFE0024334

Chicago Manual of Style (16th Edition):

Pramanick, Abhijit. “On the Correlation of Dynamic Electric-Field-Induced Structural Changes and Piezoelectricity in Ferroelectric Ceramics.” 2009. Doctoral Dissertation, University of Florida. Accessed October 19, 2019. http://ufdc.ufl.edu/UFE0024334.

MLA Handbook (7th Edition):

Pramanick, Abhijit. “On the Correlation of Dynamic Electric-Field-Induced Structural Changes and Piezoelectricity in Ferroelectric Ceramics.” 2009. Web. 19 Oct 2019.

Vancouver:

Pramanick A. On the Correlation of Dynamic Electric-Field-Induced Structural Changes and Piezoelectricity in Ferroelectric Ceramics. [Internet] [Doctoral dissertation]. University of Florida; 2009. [cited 2019 Oct 19]. Available from: http://ufdc.ufl.edu/UFE0024334.

Council of Science Editors:

Pramanick A. On the Correlation of Dynamic Electric-Field-Induced Structural Changes and Piezoelectricity in Ferroelectric Ceramics. [Doctoral Dissertation]. University of Florida; 2009. Available from: http://ufdc.ufl.edu/UFE0024334


University of Florida

4. Abate, Chiara. Novel Ruthenium Pyrochlore Materials for Cathode Application in Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs).

Degree: PhD, Materials Science and Engineering, 2008, University of Florida

 The performance of solid oxide fuel cells, which operate in the temperature range of 773-973 K (IT-SOFCs), strongly depends on the cathode employed because the… (more)

Subjects/Keywords: Cathodes; Conductivity; Electrical phases; Electrical resistivity; Electrically conductive materials; Electrodes; Electrolytes; Oxides; Oxygen; Oxygen partial pressure; bismuth, cathode, ceria, composite, conductivity, electrical, electrochemical, material, pyrochlore, ruthenium, sofc

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APA (6th Edition):

Abate, C. (2008). Novel Ruthenium Pyrochlore Materials for Cathode Application in Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs). (Doctoral Dissertation). University of Florida. Retrieved from http://ufdc.ufl.edu/UFE0022800

Chicago Manual of Style (16th Edition):

Abate, Chiara. “Novel Ruthenium Pyrochlore Materials for Cathode Application in Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs).” 2008. Doctoral Dissertation, University of Florida. Accessed October 19, 2019. http://ufdc.ufl.edu/UFE0022800.

MLA Handbook (7th Edition):

Abate, Chiara. “Novel Ruthenium Pyrochlore Materials for Cathode Application in Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs).” 2008. Web. 19 Oct 2019.

Vancouver:

Abate C. Novel Ruthenium Pyrochlore Materials for Cathode Application in Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs). [Internet] [Doctoral dissertation]. University of Florida; 2008. [cited 2019 Oct 19]. Available from: http://ufdc.ufl.edu/UFE0022800.

Council of Science Editors:

Abate C. Novel Ruthenium Pyrochlore Materials for Cathode Application in Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs). [Doctoral Dissertation]. University of Florida; 2008. Available from: http://ufdc.ufl.edu/UFE0022800


University of Florida

5. Singh, Guneeta. Size Effects in Phase Separated Manganite Nanostructures.

Degree: PhD, Physics, 2009, University of Florida

 Size Effects in Phase Separated Manganite Nanostructures This work describes a detailed nanometer scale experimental study of a phenomenon known as phase separation, in a… (more)

Subjects/Keywords: Capacitance; Electric current; Electric fields; Electrical phases; Magnetic fields; Magnetism; Magnets; Orbitals; Thin films; Transition temperature; bias, blockade, colossal, coulomb, domain, electroresistance, exchange, film, insulating, intrinsic, laprcamno, magnetiresistance, magnetoresistance, manganite, nano, nanofabrication, nanostructures, perovskite, phase, polarization, separation, simmons, spin, stripe, thin, tunneling, wall

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APA (6th Edition):

Singh, G. (2009). Size Effects in Phase Separated Manganite Nanostructures. (Doctoral Dissertation). University of Florida. Retrieved from http://ufdc.ufl.edu/UFE0024399

Chicago Manual of Style (16th Edition):

Singh, Guneeta. “Size Effects in Phase Separated Manganite Nanostructures.” 2009. Doctoral Dissertation, University of Florida. Accessed October 19, 2019. http://ufdc.ufl.edu/UFE0024399.

MLA Handbook (7th Edition):

Singh, Guneeta. “Size Effects in Phase Separated Manganite Nanostructures.” 2009. Web. 19 Oct 2019.

Vancouver:

Singh G. Size Effects in Phase Separated Manganite Nanostructures. [Internet] [Doctoral dissertation]. University of Florida; 2009. [cited 2019 Oct 19]. Available from: http://ufdc.ufl.edu/UFE0024399.

Council of Science Editors:

Singh G. Size Effects in Phase Separated Manganite Nanostructures. [Doctoral Dissertation]. University of Florida; 2009. Available from: http://ufdc.ufl.edu/UFE0024399


University of Florida

6. Kuroda, Daniel Gustavo. In the Quest of Manipulating Light-Matter Interactions Coherent Control of Two-Photon Induced Processes in Solution.

Degree: PhD, Chemistry, 2008, University of Florida

 During the late 80s, Brumer-Shapiro and Rice-Tannor proposed the use of quantum interference of molecular processes to control the outcome of chemical reactions. With the… (more)

Subjects/Keywords: Electric fields; Electric pulses; Electrical phases; Fluorescence; Genetic algorithms; Lasers; Light modulators; Pixels; Shapers; Signals

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APA · Chicago · MLA · Vancouver · CSE | Export to Zotero / EndNote / Reference Manager

APA (6th Edition):

Kuroda, D. G. (2008). In the Quest of Manipulating Light-Matter Interactions Coherent Control of Two-Photon Induced Processes in Solution. (Doctoral Dissertation). University of Florida. Retrieved from http://ufdc.ufl.edu/UFE0022135

Chicago Manual of Style (16th Edition):

Kuroda, Daniel Gustavo. “In the Quest of Manipulating Light-Matter Interactions Coherent Control of Two-Photon Induced Processes in Solution.” 2008. Doctoral Dissertation, University of Florida. Accessed October 19, 2019. http://ufdc.ufl.edu/UFE0022135.

MLA Handbook (7th Edition):

Kuroda, Daniel Gustavo. “In the Quest of Manipulating Light-Matter Interactions Coherent Control of Two-Photon Induced Processes in Solution.” 2008. Web. 19 Oct 2019.

Vancouver:

Kuroda DG. In the Quest of Manipulating Light-Matter Interactions Coherent Control of Two-Photon Induced Processes in Solution. [Internet] [Doctoral dissertation]. University of Florida; 2008. [cited 2019 Oct 19]. Available from: http://ufdc.ufl.edu/UFE0022135.

Council of Science Editors:

Kuroda DG. In the Quest of Manipulating Light-Matter Interactions Coherent Control of Two-Photon Induced Processes in Solution. [Doctoral Dissertation]. University of Florida; 2008. Available from: http://ufdc.ufl.edu/UFE0022135


University of Florida

7. Dhakal, Tara P. Manipulating the Magnetic Domains of Hole-Doped Manganites by Using Electric Field.

Degree: PhD, Physics, 2008, University of Florida

 The observation of colossal magnetoresistance (CMR) and phase coexistence in hole-doped rare earth manganese oxides (manganites) have sustained the interest in these materials for over… (more)

Subjects/Keywords: Cooling; Electric current; Electric fields; Electric potential; Electrical phases; Electrical resistivity; Low temperature; Magnetism; Nonprofit organizations; Thin films; anisotropy, cmr, film, fluid, lpcmo, manganites, nanostructure, pld, stm

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APA (6th Edition):

Dhakal, T. P. (2008). Manipulating the Magnetic Domains of Hole-Doped Manganites by Using Electric Field. (Doctoral Dissertation). University of Florida. Retrieved from http://ufdc.ufl.edu/UFE0021751

Chicago Manual of Style (16th Edition):

Dhakal, Tara P. “Manipulating the Magnetic Domains of Hole-Doped Manganites by Using Electric Field.” 2008. Doctoral Dissertation, University of Florida. Accessed October 19, 2019. http://ufdc.ufl.edu/UFE0021751.

MLA Handbook (7th Edition):

Dhakal, Tara P. “Manipulating the Magnetic Domains of Hole-Doped Manganites by Using Electric Field.” 2008. Web. 19 Oct 2019.

Vancouver:

Dhakal TP. Manipulating the Magnetic Domains of Hole-Doped Manganites by Using Electric Field. [Internet] [Doctoral dissertation]. University of Florida; 2008. [cited 2019 Oct 19]. Available from: http://ufdc.ufl.edu/UFE0021751.

Council of Science Editors:

Dhakal TP. Manipulating the Magnetic Domains of Hole-Doped Manganites by Using Electric Field. [Doctoral Dissertation]. University of Florida; 2008. Available from: http://ufdc.ufl.edu/UFE0021751


University of Florida

8. Yun, Sung. Effect of Disorder in Cuprates and Manganites.

Degree: PhD, Physics, 2008, University of Florida

 This dissertation is an inquiry into the characteristics of two representative transition metal oxides, cuprates and manganites. The pairing mechanism of cuprates is not yet… (more)

Subjects/Keywords: Cuprates; Electric fields; Electric potential; Electrical phases; Low temperature; Magnetic fields; Magnetism; Magnets; Temperature dependence; Thin films; disorder, high, manganites, phase, pseudogap, strain, transition

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APA (6th Edition):

Yun, S. (2008). Effect of Disorder in Cuprates and Manganites. (Doctoral Dissertation). University of Florida. Retrieved from http://ufdc.ufl.edu/UFE0022312

Chicago Manual of Style (16th Edition):

Yun, Sung. “Effect of Disorder in Cuprates and Manganites.” 2008. Doctoral Dissertation, University of Florida. Accessed October 19, 2019. http://ufdc.ufl.edu/UFE0022312.

MLA Handbook (7th Edition):

Yun, Sung. “Effect of Disorder in Cuprates and Manganites.” 2008. Web. 19 Oct 2019.

Vancouver:

Yun S. Effect of Disorder in Cuprates and Manganites. [Internet] [Doctoral dissertation]. University of Florida; 2008. [cited 2019 Oct 19]. Available from: http://ufdc.ufl.edu/UFE0022312.

Council of Science Editors:

Yun S. Effect of Disorder in Cuprates and Manganites. [Doctoral Dissertation]. University of Florida; 2008. Available from: http://ufdc.ufl.edu/UFE0022312


University of Florida

9. Camaratta, Matthew Allan. Microstructural Engineering of Composite Cathode Systems for Intermediate and Low-Temperature Solid Oxide Fuel Cells.

Degree: PhD, Materials Science and Engineering, 2007, University of Florida

 Solid oxide fuel cells (SOFCs) are electrochemical devices with the potential to generate power at high efficiency with little environmental impact. However, in order to… (more)

Subjects/Keywords: Bismuth; Cathodes; Conductivity; Current density; Electrical phases; Electrodes; Electrolytes; Oxides; Oxygen; Silver; asr, bismuth, bro7, cathode, cell, composite, engineering, esb, evolution, fuel, intermediate, it, itsofc, microstructural, microstructure, optimization, oxide, particle, polarization, ruthenate, silver, sofc, solid, stability, temperature

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APA (6th Edition):

Camaratta, M. A. (2007). Microstructural Engineering of Composite Cathode Systems for Intermediate and Low-Temperature Solid Oxide Fuel Cells. (Doctoral Dissertation). University of Florida. Retrieved from http://ufdc.ufl.edu/UFE0021667

Chicago Manual of Style (16th Edition):

Camaratta, Matthew Allan. “Microstructural Engineering of Composite Cathode Systems for Intermediate and Low-Temperature Solid Oxide Fuel Cells.” 2007. Doctoral Dissertation, University of Florida. Accessed October 19, 2019. http://ufdc.ufl.edu/UFE0021667.

MLA Handbook (7th Edition):

Camaratta, Matthew Allan. “Microstructural Engineering of Composite Cathode Systems for Intermediate and Low-Temperature Solid Oxide Fuel Cells.” 2007. Web. 19 Oct 2019.

Vancouver:

Camaratta MA. Microstructural Engineering of Composite Cathode Systems for Intermediate and Low-Temperature Solid Oxide Fuel Cells. [Internet] [Doctoral dissertation]. University of Florida; 2007. [cited 2019 Oct 19]. Available from: http://ufdc.ufl.edu/UFE0021667.

Council of Science Editors:

Camaratta MA. Microstructural Engineering of Composite Cathode Systems for Intermediate and Low-Temperature Solid Oxide Fuel Cells. [Doctoral Dissertation]. University of Florida; 2007. Available from: http://ufdc.ufl.edu/UFE0021667

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