Zeynep Celik Butler

Zeynep Çelik-Butler Teaching Responsibilities
University of Texas at Arlington EE 4328 / EE 5349: Introduction to Microelectromechanical Systems: This course develops the basics for microelectromechanical devices and systems including microactuators, microsensors, and micromotors, principles of operation, different micromachining techniques (surface and bulk micromachining), IC-derived microfabrication techniques, thin-film technologies as they apply to MEMS. Southern Methodist University EE2320: Electronic Circuits I: A study of basic circuit elements and models for sophomores. EE2350: Circuit Analysis I: A study of basic circuit elements and models for sophomores. EE 3311: Solid-State Devices: This course introduces the physical principles of semiconductor devices and their practical implementation in electronic circuits. Topics include metal-semiconductor junctions, p-n junctions, bipolar junction transistors, field-effect transistors, integrated circuits, and light emitting diodes. EE4311: Senior Design Courses taught to Christine Travers, Stephan Tan, Trisha Salvador, Mary Elizabeth Oppenheim. EE4312: Senior Design Courses taught to Christine Travers, Stephan Tan, Trisha Salvador, Mary Elizabeth Oppenheim. EE4390-P70: Senior Design Project given to Denise Younger, Spr. 1990: Design and implementation of low-noise AC/DC power supply. EE 5310/7310: Introduction to Semiconductors: A study of basic principles in physics and chemistry of semiconductors that have direct applications on device operation and fabrication. The course covers basic semiconductor properties, elements of quantum mechanics, energy band theory, equilibrium carrier statistics, carrier transport, and generation-recombination process. EE 5314/7314 - ME5314/7314: Introduction to Microelectromechanical Systems: This course develops the basics for microelectromechanical devices and systems including microactuators, microsensors, and micromotors, principles of operation, different micromachining techniques (surface and bulk micromachining), IC-derived microfabrication techniques, thin-film technologies as they apply to MEMS. EE 8310: Electronic Processes: Study of atomic, molecular, and crystal structures; electron motion in crystals; carrier statistics; band theory; electronic transport properties; and scattering and recombination mechanisms in metals and semiconductors. EE8390-P70: Reading Course for Noise in Solid-State Devices: Taught to the graduate students, entering into the device noise research. EE839X-P70: Reading Course for IR Detectors: Taught to the graduate students, entering into the IR detection research
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Zeynep Çelik-Butler
Teaching Responsibilities

University of Texas at Arlington

EE 4328 / EE 5349: Introduction to Microelectromechanical Systems:
This course develops the basics for microelectromechanical devices and systems including microactuators, microsensors, and micromotors, principles of operation, different micromachining techniques (surface and bulk micromachining), IC-derived microfabrication techniques, thin-film technologies as they apply to MEMS.

Southern Methodist University

EE2320: Electronic Circuits I: A study of basic circuit elements and models for sophomores.

EE2350: Circuit Analysis I: A study of basic circuit elements and models for sophomores.

EE 3311: Solid-State Devices:
This course introduces the physical principles of semiconductor devices and their practical implementation in electronic circuits. Topics include metal-semiconductor junctions, p-n junctions, bipolar junction transistors, field-effect transistors, integrated circuits, and light emitting diodes.

EE4311: Senior Design Courses taught to Christine Travers, Stephan Tan, Trisha Salvador, Mary Elizabeth Oppenheim.

EE4312: Senior Design Courses taught to Christine Travers, Stephan Tan, Trisha Salvador, Mary Elizabeth Oppenheim.

EE4390-P70: Senior Design Project given to Denise Younger, Spr. 1990: Design and implementation of low-noise AC/DC power supply.

EE 5310/7310: Introduction to Semiconductors:
A study of basic principles in physics and chemistry of semiconductors that have direct applications on device operation and fabrication. The course covers basic semiconductor properties, elements of quantum mechanics, energy band theory, equilibrium carrier statistics, carrier transport, and generation-recombination process.

EE 5314/7314 - ME5314/7314: Introduction to Microelectromechanical Systems:
This course develops the basics for microelectromechanical devices and systems including microactuators, microsensors, and micromotors, principles of operation, different micromachining techniques (surface and bulk micromachining), IC-derived microfabrication techniques, thin-film technologies as they apply to MEMS.

EE 8310: Electronic Processes:
Study of atomic, molecular, and crystal structures; electron motion in crystals; carrier statistics; band theory; electronic transport properties; and scattering and recombination mechanisms in metals and semiconductors.

EE8390-P70: Reading Course for Noise in Solid-State Devices: Taught to the graduate students, entering into the device noise research.

EE839X-P70: Reading Course for IR Detectors: Taught to the graduate students, entering into the IR detection research

EE Department UTA-Engineering Mail Feedback