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Quantum mechanics (QM), also known as quantum physics or quantum theory, is a branch of physics providing a mathematical description of much of the dual particle-like and wave-like behavior and interactions of energy and matter. It departs from classical mechanics primarily at the atomic and subatomic scales, the so-called quantum realm. In advanced topics of QM, some of these behaviors are macroscopic and only emerge at very low or very high energies or temperatures.
Learn more about quantum dots from the many resources on this site, listed below. More information on Quantum mechanics can be found here.
Lecture 5: Systems of Identical Fermions in the Wigner Formulation of Quantum Mechanics
18 Nov 2014 | | Contributor(s):: Jean Michel D Sellier
In this lecture, Dr. Sellier discusses about systems of indistinguishable Fermions in the Wigner formulation of quantum mechanics.
manoj singh rajput
Quantum Beauty: Real and Ideal
15 Apr 2013 | | Contributor(s):: Frank Wilczek
Does the world embody beautiful concepts? Mystics and philosophers long imagined that it should, and scientists gathered hints that it does, but it is really only in the twentieth century, with the development of quantum theory, that the answer emerged as a triumphant "Yes!" I'll...
sachin kumar T P
ECE 606 Lecture 4: Periodic Potentials Solutions of Schrödinger's Equation
14 Sep 2012 | | Contributor(s):: Gerhard Klimeck
ECE 606 Lecture 2: Quantum Mechanics
Application-driven Co-Design: Using Proxy Apps in the ASCR Materials Co-Design Center
31 May 2012 | | Contributor(s):: Jim Belak
Computational materials science is performed with a suite of applications that span the quantum mechanics of interatomic bonding to the continuum mechanics of engineering problems and phenomenon specific models in between. In this talk, we will review this suite and the motifs used in each of...
kutta don guddu
Md. Abul Hayat
Development of the ReaxFF reactive force fields and applications to combustion, catalysis and material failure
12 Sep 2011 | | Contributor(s):: Adri van Duin
This lecture will describe how the traditional, non-reactive FF-concept can be extended for application including reactive events by introducing bond order/bond distance concepts. Furthermore, it will address how these reactive force fields can be trained against QM-data, thus greatly enhancing...
Allan Maple Oliveira
K. Birgitta Whaley
Quantum Dot Lab Learning Materials
By completing the Quantum Dot Lab, users will be able to a) understand the 3D confinement of carriers in a quantum dot, b) describe effects of geometry of a quantum dot on the energy states of...
PfFP Lecture 30: Quantum Physics II
27 Apr 2011 | | Contributor(s):: Jerry M. Woodall