Add to ORKGThis resource illustrates the interference patterns for diffraction through double slits. A series of sources, electrons, protons, neutrons, photons, and pions, can be chosen for the virtual experiment. The energy of the source, the slit separation, and the flux rate can all be adjusted. The diffraction patterns are built from random flashes on a screen. The screens can be saved for comparison of different experiments
Young’s double slit experiment revived the wave theory of the light. The standard interpretation is ...
We present an educational double-slit experiment aimed at strengthening students’ ability in physica...
The diffraction pattern by double slit is studied by incoming Gaussian wave packet subjected to scat...
This resource illustrates the interference patterns for diffraction through double slits. A series o...
The interference and the diffraction are two basic phenomena in physical optics. We have shown the p...
Current nanotechnology techniques make possible the preparation of slits in the submicrometer range ...
Double-slit diffraction is a corner stone of quantum mechanics. It illustrates key features of quant...
In diffraction experiments with particle beams, several effects lead to a fringe visibility reductio...
The two slit difraction pattern, according to which the particle is both diffracted and scattered by...
The standard interpretation of Young’s double slit experiment is that the light behaves as waves bef...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
Abstract Ð An experiment in which participants were asked to reduce the fringe contrast in a Young’s...
Quantum mechanics has fundamentally changed the way scientists think about the world. Quantum mechan...
The double slit has been extended to the cross double slits. The universal phenomena that, in classi...
Modern nanotechnology tools allowed us to prepare slits of 90 nm width and 450 nm spacing in a scree...
Young’s double slit experiment revived the wave theory of the light. The standard interpretation is ...
We present an educational double-slit experiment aimed at strengthening students’ ability in physica...
The diffraction pattern by double slit is studied by incoming Gaussian wave packet subjected to scat...
This resource illustrates the interference patterns for diffraction through double slits. A series o...
The interference and the diffraction are two basic phenomena in physical optics. We have shown the p...
Current nanotechnology techniques make possible the preparation of slits in the submicrometer range ...
Double-slit diffraction is a corner stone of quantum mechanics. It illustrates key features of quant...
In diffraction experiments with particle beams, several effects lead to a fringe visibility reductio...
The two slit difraction pattern, according to which the particle is both diffracted and scattered by...
The standard interpretation of Young’s double slit experiment is that the light behaves as waves bef...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
Abstract Ð An experiment in which participants were asked to reduce the fringe contrast in a Young’s...
Quantum mechanics has fundamentally changed the way scientists think about the world. Quantum mechan...
The double slit has been extended to the cross double slits. The universal phenomena that, in classi...
Modern nanotechnology tools allowed us to prepare slits of 90 nm width and 450 nm spacing in a scree...
Young’s double slit experiment revived the wave theory of the light. The standard interpretation is ...
We present an educational double-slit experiment aimed at strengthening students’ ability in physica...
The diffraction pattern by double slit is studied by incoming Gaussian wave packet subjected to scat...