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Double Diamond Slot. The smaller the slit, the greater the angle of spread. The top portion of the image shows the central portion of the pattern formed when a red laser illuminates a slit and, if one looks carefully, two faint side bands.
More bands can be seen with a more highly refined apparatus. Diffraction explains the pattern as being the result of the interference of light waves from the slit.
If one illuminates two parallel slits, the light from the two slits again interferes. Here the interference is a more pronounced pattern with a series of alternating light and dark bands.
The width of the bands is a property of the frequency of the illuminating light. When Thomas Young — first demonstrated this phenomenon, it indicated that light consists of waves, as the distribution of brightness can be explained by the alternately additive and subtractive interference of wavefronts.
However, the later discovery of the photoelectric effect demonstrated that under different circumstances, light can behave as if it is composed of discrete particles.
These seemingly contradictory discoveries made it necessary to go beyond classical physics and take the quantum nature of light into account.
Feynman was fond of saying that all of quantum mechanics can be gleaned from carefully thinking through the implications of this single experiment.
The Englert—Greenberger duality relation provides a detailed treatment of the mathematics of double-slit interference in the context of quantum mechanics.
A low-intensity double-slit experiment was first performed by G. A double-slit experiment was not performed with anything other than light until , when Claus Jönsson of the University of Tübingen performed it with electron beams.
In , Stefano Frabboni and co-workers eventually performed the double-slit experiment with electrons and real slits, following the original scheme proposed by Feynman.
In , single particle interference was demonstrated for antimatter by Marco Giammarchi and coworkers. An important version of this experiment involves single particles or waves—for consistency, they are called particles here.
Sending particles through a double-slit apparatus one at a time results in single particles appearing on the screen, as expected.
Remarkably, however, an interference pattern emerges when these particles are allowed to build up one by one see the adjacent image.
This demonstrates the wave—particle duality , which states that all matter exhibits both wave and particle properties: the particle is measured as a single pulse at a single position, while the wave describes the probability of absorbing the particle at a specific place on the screen.
The probability of detection is the square of the amplitude of the wave and can be calculated with classical waves see below.
The particles do not arrive at the screen in a predictable order, so knowing where all the previous particles appeared on the screen and in what order tells nothing about where a future particle will be detected.
Ever since the origination of quantum mechanics, some theorists have searched for ways to incorporate additional determinants or " hidden variables " that, were they to become known, would account for the location of each individual impact with the target.
More complicated systems that involve two or more particles in superposition are not amenable to the above explanation. A well-known thought experiment predicts that if particle detectors are positioned at the slits, showing through which slit a photon goes, the interference pattern will disappear.
Currently, multiple experiments have been performed illustrating various aspects of complementarity. An experiment performed in   produced results that demonstrated that information could be obtained regarding which path a particle had taken without destroying the interference altogether.
This showed the effect of measurements that disturbed the particles in transit to a lesser degree and thereby influenced the interference pattern only to a comparable extent.
In other words, if one does not insist that the method used to determine which slit each photon passes through be completely reliable, one can still detect a degraded interference pattern.
Wheeler's delayed choice experiments demonstrate that extracting "which path" information after a particle passes through the slits can seem to retroactively alter its previous behavior at the slits.
Quantum eraser experiments demonstrate that wave behavior can be restored by erasing or otherwise making permanently unavailable the "which path" information.
A simple do-it-at-home illustration of the quantum eraser phenomenon was given in an article in Scientific American. The polarizers can be considered as introducing which-path information to each beam.
This can also be accounted for by considering the light to be a classical wave,  : 91 and also when using circular polarizers and single photons.
In a highly publicized experiment in , researchers claimed to have identified the path each particle had taken without any adverse effects at all on the interference pattern generated by the particles.
However, commentators such as Svensson  have pointed out that there is in fact no conflict between the weak measurements performed in this variant of the double-slit experiment and the Heisenberg uncertainty principle.
Weak measurement followed by post-selection did not allow simultaneous position and momentum measurements for each individual particle, but rather allowed measurement of the average trajectory of the particles that arrived at different positions.
In other words, the experimenters were creating a statistical map of the full trajectory landscape.
In , Pfleegor and Mandel demonstrated two-source interference using two separate lasers as light sources. It was shown experimentally in that in a double-slit system where only one slit was open at any time, interference was nonetheless observed provided the path difference was such that the detected photon could have come from either slit.
In , the double-slit experiment was successfully performed with buckyball molecules each of which comprises 60 carbon atoms. In , E. Eliel presented an experimental and theoretical study of the optical transmission of a thin metal screen perforated by two subwavelength slits, separated by many optical wavelengths.
The total intensity of the far-field double-slit pattern is shown to be reduced or enhanced as a function of the wavelength of the incident light beam.
In , researchers at the University of Nebraska—Lincoln performed the double-slit experiment with electrons as described by Richard Feynman , using new instruments that allowed control of the transmission of the two slits and the monitoring of single-electron detection events.
In , the double-slit experiment was successfully performed with molecules that each comprised atoms whose total mass was over 10, atomic mass units.
Hydrodynamic analogs have been developed that can recreate various aspects of quantum mechanical systems, including single-particle interference through a double-slit.
The droplet gently sloshes the liquid with every bounce. At the same time, ripples from past bounces affect its course.
The droplet's interaction with its own ripples, which form what is known as a pilot wave , causes it to exhibit behaviors previously thought to be peculiar to elementary particles — including behaviors customarily taken as evidence that elementary particles are spread through space like waves, without any specific location, until they are measured.