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Experimental tests of Schrodinger evolution, position distribution, in square well and other simple systems?
Takhatajan's mathematical formulation of quantum mechanicsBest current bounds on nonconservation of momentum?Why is it often assumed that particles are found in energy eigenstates?A rigorous treatment of distributions in quantum mechanicsAre there two aspects of Born's rule?Hilbert space and HamiltoniansSchrödinger equation in momentum spaceScattering description with spherical harmonicsInfinite square well and Heisenberg pictureHow in experimental practice does a momentum measurement reduce a state to a momentum eigenfunction?
$begingroup$
Have the energy eigenfunctions in position space ever been experimentally tested for the simplest system undergraduates encounter when learning quantum mechanics, the square well? If not, what is the best example of the experimental verification of position space energy eigenstates or Schrodinger evolution, for simple systems? Almost always the 2-slit experiment is mentioned, or tests of hydrogen such as this one (for which the precision of theory-experiment agreement is quite low), but are there any other tests that test the probability distributions that undergraduates typically derive when learning quantum mechanics?
quantum-mechanics experimental-physics schroedinger-equation education
edited 2 days ago
Qmechanic♦
106k121961222
asked 2 days ago
user1247user1247
3,73722156
$endgroup$
add a comment |
$begingroup$
Have the energy eigenfunctions in position space ever been experimentally tested for the simplest system undergraduates encounter when learning quantum mechanics, the square well? If not, what is the best example of the experimental verification of position space energy eigenstates or Schrodinger evolution, for simple systems? Almost always the 2-slit experiment is mentioned, or tests of hydrogen such as this one (for which the precision of theory-experiment agreement is quite low), but are there any other tests that test the probability distributions that undergraduates typically derive when learning quantum mechanics?
quantum-mechanics experimental-physics schroedinger-equation education
edited 2 days ago
Qmechanic♦
106k121961222
asked 2 days ago
user1247user1247
3,73722156
$endgroup$
add a comment |
$begingroup$
Have the energy eigenfunctions in position space ever been experimentally tested for the simplest system undergraduates encounter when learning quantum mechanics, the square well? If not, what is the best example of the experimental verification of position space energy eigenstates or Schrodinger evolution, for simple systems? Almost always the 2-slit experiment is mentioned, or tests of hydrogen such as this one (for which the precision of theory-experiment agreement is quite low), but are there any other tests that test the probability distributions that undergraduates typically derive when learning quantum mechanics?
quantum-mechanics experimental-physics schroedinger-equation education
edited 2 days ago
Qmechanic♦
106k121961222
asked 2 days ago
user1247user1247
3,73722156
$endgroup$
Have the energy eigenfunctions in position space ever been experimentally tested for the simplest system undergraduates encounter when learning quantum mechanics, the square well? If not, what is the best example of the experimental verification of position space energy eigenstates or Schrodinger evolution, for simple systems? Almost always the 2-slit experiment is mentioned, or tests of hydrogen such as this one (for which the precision of theory-experiment agreement is quite low), but are there any other tests that test the probability distributions that undergraduates typically derive when learning quantum mechanics?
quantum-mechanics experimental-physics schroedinger-equation education
quantum-mechanics experimental-physics schroedinger-equation education
edited 2 days ago
Qmechanic♦
106k121961222
asked 2 days ago
user1247user1247
3,73722156
edited 2 days ago
Qmechanic♦
106k121961222
asked 2 days ago
user1247user1247
3,73722156
edited 2 days ago
Qmechanic♦
106k121961222
edited 2 days ago
Qmechanic♦
106k121961222
edited 2 days ago
Qmechanic♦
106k121961222
106k121961222
asked 2 days ago
user1247user1247
3,73722156
asked 2 days ago
user1247user1247
3,73722156
asked 2 days ago
user1247user1247
3,73722156
3,73722156
add a comment |
add a comment |
1 Answer
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$begingroup$
You may wish to consider the exeriment by Crommie, Lutz and Eigler (Nature 363, 524 (1993)), who look at standig waves between step edges in a surface two-dimensional electron gas using scanning tunneling microscopy. Other experiments by the same IBM group have shown the standing waves in quantum corrals. Generally, STM images of patterned surface 2D electron gases taken at cryogenic temperatures have shown beautiful images of the 'wave functions' (better, the probability distributions, or even better, the local density of states) of confined systems within the last 30 years.
Another technique uses electron tunneling in semiconductor heterostructures to image the wave functions of quantum dots, as shown in this paper, for example (there are more papers in this direction by the same and other groups). These states are the bound states of so-called 'artificial atoms' (another name for few-electron quantum dots).
I found additional experiments such as this one using photoelectron spectroscopy to image the wave functions of adsorbed molecules.
Although these experiments may not be exactly what you are looking for, because they are rather complicated to explain in detail to undergraduates, they may be used as a 'teaser' to make them curious about learning advanced methods to eventually understand them.
answered 2 days ago
flaudemusflaudemus
1,827313
$endgroup$
add a comment |
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1 Answer
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$begingroup$
You may wish to consider the exeriment by Crommie, Lutz and Eigler (Nature 363, 524 (1993)), who look at standig waves between step edges in a surface two-dimensional electron gas using scanning tunneling microscopy. Other experiments by the same IBM group have shown the standing waves in quantum corrals. Generally, STM images of patterned surface 2D electron gases taken at cryogenic temperatures have shown beautiful images of the 'wave functions' (better, the probability distributions, or even better, the local density of states) of confined systems within the last 30 years.
Another technique uses electron tunneling in semiconductor heterostructures to image the wave functions of quantum dots, as shown in this paper, for example (there are more papers in this direction by the same and other groups). These states are the bound states of so-called 'artificial atoms' (another name for few-electron quantum dots).
I found additional experiments such as this one using photoelectron spectroscopy to image the wave functions of adsorbed molecules.
Although these experiments may not be exactly what you are looking for, because they are rather complicated to explain in detail to undergraduates, they may be used as a 'teaser' to make them curious about learning advanced methods to eventually understand them.
answered 2 days ago
flaudemusflaudemus
1,827313
$endgroup$
add a comment |
$begingroup$
You may wish to consider the exeriment by Crommie, Lutz and Eigler (Nature 363, 524 (1993)), who look at standig waves between step edges in a surface two-dimensional electron gas using scanning tunneling microscopy. Other experiments by the same IBM group have shown the standing waves in quantum corrals. Generally, STM images of patterned surface 2D electron gases taken at cryogenic temperatures have shown beautiful images of the 'wave functions' (better, the probability distributions, or even better, the local density of states) of confined systems within the last 30 years.
Another technique uses electron tunneling in semiconductor heterostructures to image the wave functions of quantum dots, as shown in this paper, for example (there are more papers in this direction by the same and other groups). These states are the bound states of so-called 'artificial atoms' (another name for few-electron quantum dots).
I found additional experiments such as this one using photoelectron spectroscopy to image the wave functions of adsorbed molecules.
Although these experiments may not be exactly what you are looking for, because they are rather complicated to explain in detail to undergraduates, they may be used as a 'teaser' to make them curious about learning advanced methods to eventually understand them.
answered 2 days ago
flaudemusflaudemus
1,827313
$endgroup$
add a comment |
$begingroup$
You may wish to consider the exeriment by Crommie, Lutz and Eigler (Nature 363, 524 (1993)), who look at standig waves between step edges in a surface two-dimensional electron gas using scanning tunneling microscopy. Other experiments by the same IBM group have shown the standing waves in quantum corrals. Generally, STM images of patterned surface 2D electron gases taken at cryogenic temperatures have shown beautiful images of the 'wave functions' (better, the probability distributions, or even better, the local density of states) of confined systems within the last 30 years.
Another technique uses electron tunneling in semiconductor heterostructures to image the wave functions of quantum dots, as shown in this paper, for example (there are more papers in this direction by the same and other groups). These states are the bound states of so-called 'artificial atoms' (another name for few-electron quantum dots).
I found additional experiments such as this one using photoelectron spectroscopy to image the wave functions of adsorbed molecules.
Although these experiments may not be exactly what you are looking for, because they are rather complicated to explain in detail to undergraduates, they may be used as a 'teaser' to make them curious about learning advanced methods to eventually understand them.
answered 2 days ago
flaudemusflaudemus
1,827313
$endgroup$
You may wish to consider the exeriment by Crommie, Lutz and Eigler (Nature 363, 524 (1993)), who look at standig waves between step edges in a surface two-dimensional electron gas using scanning tunneling microscopy. Other experiments by the same IBM group have shown the standing waves in quantum corrals. Generally, STM images of patterned surface 2D electron gases taken at cryogenic temperatures have shown beautiful images of the 'wave functions' (better, the probability distributions, or even better, the local density of states) of confined systems within the last 30 years.
Another technique uses electron tunneling in semiconductor heterostructures to image the wave functions of quantum dots, as shown in this paper, for example (there are more papers in this direction by the same and other groups). These states are the bound states of so-called 'artificial atoms' (another name for few-electron quantum dots).
I found additional experiments such as this one using photoelectron spectroscopy to image the wave functions of adsorbed molecules.
Although these experiments may not be exactly what you are looking for, because they are rather complicated to explain in detail to undergraduates, they may be used as a 'teaser' to make them curious about learning advanced methods to eventually understand them.
answered 2 days ago
flaudemusflaudemus
1,827313
edited 2 days ago
answered 2 days ago
flaudemusflaudemus
1,827313
answered 2 days ago
flaudemusflaudemus
1,827313
answered 2 days ago
flaudemusflaudemus
1,827313
1,827313
add a comment |
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