Definition, Construction, Working Principle, Advantages, Limitations, Applications
Subject and UNIT: Materials Science: Unit V: Nanoelectronic Devices
Although a single-electron box can control the number of electrons in the quantum dot, it does not have the properties of a switching device.
Definition, Formula, Tunneling, Condition
Subject and UNIT: Materials Science: Unit V: Nanoelectronic Devices
In electronics, transistor is the most important device. Transistors are what computers use to compute-tiny switches turning ON and OFF making logic decisions.
Definition, Explanation, Resonant Tunneling Diode
Subject and UNIT: Materials Science: Unit V: Nanoelectronic Devices
The phenomenon in which the tunneling current reaches peak (maximum) value
Definition, Derivation
Subject and UNIT: Materials Science: Unit V: Nanoelectronic Devices
It denotes the oscillation of a particle (e.g. an electron) confined in a periodic potential when a constant force is acting on it.
Definition, Explanation, 3 types and its Construction, Use
Subject and UNIT: Materials Science: Unit V: Nanoelectronic Devices
When a bulk material is reduced in its size, atleast one of its dimension, in the order of few nanometres, then the structure is known as quantum structure.
Definition | Nanoelectronic Devices
Subject and UNIT: Materials Science: Unit V: Nanoelectronic Devices
It is a process of reduction of the size of the solid such that the energy levels inside become discrete.
Introduction
Subject and UNIT: Materials Science: Unit V: Nanoelectronic Devices
It is concerned with the study of phenomena and manipulation of materials at nanometre scale.
Optical Properties of Materials | Materials Science
Subject and UNIT: Materials Science: Unit IV: Optical Properties of Materials
PART - B (16 Marks Questions): Optical Properties of Materials - Materials Science
Optical Properties of Materials | Materials Science
Subject and UNIT: Materials Science: Unit IV: Optical Properties of Materials
2 Marks Question & Answers: Optical Properties of Materials - Materials Science
Principle, Surface Plasmon Resonance, Uses
Subject and UNIT: Materials Science: Unit IV: Optical Properties of Materials
Plasmonics or nanoplasmonics refers to the generation, detection and manipulation of signals at optical frequencies frequencies along metal-dielectric interfaces in the nanometer scale.
Subject and UNIT: Materials Science: Unit IV: Optical Properties of Materials
The optoelectronic switching devices are very useful for computing and light activated logic gates applications.
Subject and UNIT: Materials Science: Unit IV: Optical Properties of Materials
These are used to modulate the intensity or phase of light by an electric field.