DevanshKandpal: Bot: wrap bare course codes in wikilinks

2026-04-14T16:44:35Z

Bot: wrap bare course codes in wikilinks

← Older revision		Revision as of 16:44, 14 April 2026
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	== pYL728 : Quantum Heterostructures ==		== pYL728 : Quantum Heterostructures ==
	Semiconductor heterostructures, Quantum confined systems, Electron transport in quantum structures, 2DEG, Excitons in quantum structures, Quantum confined Stark effect, Integer Quantum Hall effect, quantum well and quantum cascade lasers, quantum well infrared photodetectors (QWIPD), resonant tunneling devices (RTD), high electron mobility transistors (HEMT), quantum interference transistors (QIT) and hot electron transistors (HET). pYL729 Nanoprobe Techniques 1 Credit (1-0-0) Historical perspectives for invention of STM, Optical & Electron microscopy, Atom-scale tunnelling, Imaging atomic states, STM Instrumentation, Imaging modes, Constant current, Constant height, Feedback circuitry, surface topography, local density of the states, Single molecule vibrational spectroscopy, Image processing and analysis, Atomic Force Microscopy, Capacitance detection system, Optical detection systems, Imaging modes, Representative applications in biological sciences, Force Spectroscopy, Interpreting force curve, Adhesion, Nanoindentation, Magnetic Force Microscopy, Scanning Capacitance Microscopy, Thermal Methods at the Nanoscale, Dip-pen lithography, Near field Scanning Optical Microscopy, Hard X-ray nanoprobe.		Semiconductor heterostructures, Quantum confined systems, Electron transport in quantum structures, 2DEG, Excitons in quantum structures, Quantum confined Stark effect, Integer Quantum Hall effect, quantum well and quantum cascade lasers, quantum well infrared photodetectors (QWIPD), resonant tunneling devices (RTD), high electron mobility transistors (HEMT), quantum interference transistors (QIT) and hot electron transistors (HET). [[pYL729]] Nanoprobe Techniques 1 Credit (1-0-0) Historical perspectives for invention of STM, Optical & Electron microscopy, Atom-scale tunnelling, Imaging atomic states, STM Instrumentation, Imaging modes, Constant current, Constant height, Feedback circuitry, surface topography, local density of the states, Single molecule vibrational spectroscopy, Image processing and analysis, Atomic Force Microscopy, Capacitance detection system, Optical detection systems, Imaging modes, Representative applications in biological sciences, Force Spectroscopy, Interpreting force curve, Adhesion, Nanoindentation, Magnetic Force Microscopy, Scanning Capacitance Microscopy, Thermal Methods at the Nanoscale, Dip-pen lithography, Near field Scanning Optical Microscopy, Hard X-ray nanoprobe.

Prashantt492: Creating course page via bot

2026-03-04T10:18:42Z

Creating course page via bot

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{{Infobox Course
| code = pYL728
| name = Quantum Heterostructures
| credits = 2
| credit_structure = 2-0-0
| pre_requisites =
| overlaps =
}}

== pYL728 : Quantum Heterostructures ==
Semiconductor heterostructures, Quantum confined systems, Electron transport in quantum structures, 2DEG, Excitons in quantum structures, Quantum confined Stark effect, Integer Quantum Hall effect, quantum well and quantum cascade lasers, quantum well infrared photodetectors (QWIPD), resonant tunneling devices (RTD), high electron mobility transistors (HEMT), quantum interference transistors (QIT) and hot electron transistors (HET). pYL729 Nanoprobe Techniques 1 Credit (1-0-0) Historical perspectives for invention of STM, Optical & Electron microscopy, Atom-scale tunnelling, Imaging atomic states, STM Instrumentation, Imaging modes, Constant current, Constant height, Feedback circuitry, surface topography, local density of the states, Single molecule vibrational spectroscopy, Image processing and analysis, Atomic Force Microscopy, Capacitance detection system, Optical detection systems, Imaging modes, Representative applications in biological sciences, Force Spectroscopy, Interpreting force curve, Adhesion, Nanoindentation, Magnetic Force Microscopy, Scanning Capacitance Microscopy, Thermal Methods at the Nanoscale, Dip-pen lithography, Near field Scanning Optical Microscopy, Hard X-ray nanoprobe.

PYL728 - Revision history

DevanshKandpal: Bot: wrap bare course codes in wikilinks

Prashantt492: Creating course page via bot