Supriyo Datta

Supriyo Datta started his career in ultrasonics, but since 1985 has focused on current flow in nanoscale electronic devices. The approach pioneered by his group for the description of quantum transport has been widely adopted in the field of nano electronics and he was elected to the National Academy of Engineering (NAE) for this work. This approach, combining the non-equilibrium Green function (NEGF) formalism of many-body physics with the Landauer formalism from mesoscopic physics, is described in his books Electronic Transport in Mesoscopic Systems (Cambridge 1995), Quantum Transport: Atom to Transistor (Cambridge 2005) and Lessons from Nanoelectronics (World Scientific 2012). He is also well-known for his contributions to spin electronics and molecular electronics.
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Boltzmann Law: Physics to Computing (edX)

EdX

Purdue University,PurdueX

Boltzmann Law: Physics to Computing (edX)

Engineering Sci: Physics

Explore the fascinating connections between equilibrium statistical mechanics, stochastic neural networks, and quantum computing with 'Boltzmann Law: Physics to Computing'. This course offers a comprehensive look at how these seemingly disparate fields are linked through the concept of state-space dimensions defined by binary bits. Uncover the underlying principles that govern everything from the behavior of particles in thermal equilibrium to the functioning of advanced computational systems.

Mar 25th 2024

5-12 Weeks

Physics Computing Boltzmann

Mathematics of Waves: Visualized with Neural Networks (edX)

EdX

Purdue University,PurdueX

Mathematics of Waves: Visualized with Neural Networks (edX)

Engineering

Dive into the intriguing realm of wave phenomena with 'Mathematics of Waves: Visualized with Neural Networks'. This course offers an enlightening journey through various types of waves – from sound and light to gravity and quantum mechanics. By employing neural networks, you'll gain a deeper understanding of how these complex systems can be visualized mathematically.

Mar 18th 2024

2 Weeks

Neural Networks Acoustics Waves Mathematics

EdX

Purdue University,PurdueX

Introduction to Quantum Transport (edX)

Engineering Eng: Electronics

Dive into the world of quantum mechanics with 'Introduction to Quantum Transport' on edX. This comprehensive course explores the NEGF method for modeling nanoscale devices, delving into Schrödinger's equation, tight-binding models, bandstructure analysis, and applications in spintronics. Whether you're a student or a professional interested in semiconductor physics, this course provides a solid foundation in quantum transport theory.

Feb 12th 2024

5-12 Weeks

Physics Quantum Engineering

EdX

Purdue University,PurdueX

Fundamentals of Current Flow (edX)

Engineering Eng: Electronics

Dive deep into the world of electron movement in solids with 'Fundamentals of Current Flow'. This course provides a fresh perspective on current flow mechanisms, distinct from traditional teachings. Explore ballistic transport, diffusive transport, and their implications for nanoelectronic devices. Gain a unified understanding that's essential for anyone interested in electronics at the nano-scale.

Jan 8th 2024

5-12 Weeks

Nanoelectronics Conductivity Density

Fundamentals of Nanoelectronics: Basic Concepts (edX)

EdX

Purdue University,PurdueX

Fundamentals of Nanoelectronics: Basic Concepts (edX)

Engineering

Dive into the world of nanoelectronics with our foundational course that unravels the mysteries behind the tiny components powering today's technology. From understanding electron flow in solids to exploring the revolutionary implications of nanoscale transistors, this course is your gateway to mastering the basics of nanotechnology.

No sessions available

4 Weeks

Nanoelectronics Mesoscopic Physics Nanotransistors

Fundamentals of Nanoelectronics, Part B: Quantum Transport (edX)

EdX

Purdue University,PurdueX

Fundamentals of Nanoelectronics, Part B: Quantum Transport (edX)

Eng: Electronics

Embark on an educational journey through the intricate realm of nanoelectronics with Part B: Quantum Transport. This course builds upon foundational concepts introduced in Part A, delving deeper into quantum mechanics' application to nanoscale electronics. You'll explore how electrons behave in confined spaces and learn about cutting-edge technologies such as spintronics.

No sessions available

5-12 Weeks

Nanoelectronics

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