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![Page 1: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/1.jpg)
Lecture 5The meaning of wave function
(c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed and made available online by work supported jointly by University of Illinois, the
National Science Foundation under Grant CHE-1118616 (CAREER), and the Camille & Henry Dreyfus Foundation, Inc. through the Camille Dreyfus Teacher-Scholar program. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not
necessarily reflect the views of the sponsoring agencies.
![Page 2: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/2.jpg)
The Born interpretation of wave function A wave function gives the probability of
finding the particle at a certain location. This is the most commonly misunderstood
concept in quantum chemistry. It is a mistake to think of a particle spreading
like a cloud according to the wave function. Only its probability density does.
![Page 3: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/3.jpg)
The Born interpretation
What is a wave function? It has all the dynamical
information about the particle. More immediately, it has the
information about the location of the particle.
Max Born
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The Born interpretation
The square of the wave function |Ψ|2 at a point is proportional to the probability of finding the particle at that point.
0*2 Complex conjugate of Ψ
0
))(()()(22222
*2
baiba
biabiabiabiabia
Always real, non-negative
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The Born interpretation
A wave function is in general complex.
But |Ψ|2 is always real, non-negative.
![Page 6: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/6.jpg)
The Born interpretation
One-dimension: if the wave function of a particle has the value Ψ at point x, the probability of finding the particle between x and x+dx is proportional to |Ψ|2 dx.
![Page 7: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/7.jpg)
The Born interpretation
Three-dimension: the probability of finding the particle in an infinitesimal volume dτ = dx dy dz at point r is proportional to |Ψ(r)|2 dτ.
|Ψ(r)|2 is the probability density.
![Page 8: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/8.jpg)
The Born interpretation
It is a mistake to think that a particle spreads like a cloud or a mist with density proportional to |Ψ|2. (Such an interpretation was seriously considered in physics but was dismissed.)
![Page 9: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/9.jpg)
The Born interpretation Many notable physicists resisted the Born
interpretation such as Erwin Schrödinger and Albert Einstein, the very architects of quantum mechanics.
The strongest advocates were Max Born and Niels Bohr. Today, we know that this is the correct interpretation.
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Nobel Prizes in Physics 1918 Planck – Quantization of energy 1920 Einstein – Photoelectric effect 1921 Bohr – Quantum mechanics 1927 Compton – Compton effect 1929 de Broglie – de Broglie relation 1932 Heisenberg – Quantum mechanics 1933 Schrödinger & Dirac – Atomic theory 1945 Pauli – Pauli principle 1954 Born – Born interpretation
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Normalization
When Ψ satisfies the Schrödinger equation
so does NΨ, where N is a constant factor
because this equation has Ψ in both right- and left-hand sides.
EzyxV
mH ),,(
22
2
)()(),,(2
)( 22
NENzyxV
mNH
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Normalization
We are free to multiply any constant factor (other than zero) to Ψ, without stopping it from the solution of the Schrödinger equation.
Remembering that |Ψ|2dxdydz is only proportional to the probability of finding the particle in dxdydz volume at (x,y,z), we consider it the most desirable and convenient if the wave function be normalized such that finding the particle somewhere in the space is equal to 1.
![Page 13: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/13.jpg)
Normalization We multiply a constant to Ψ.
such that
These equations mean that probability of finding the particle somewhere is 1. After normalization, |Ψ|2dxdydz is not only proportional but is equal to the probability of finding the particle in the volume element dxdydz at (x,y,z).
N
1222 dxNdx 1
222 dxdydzNdxdydz
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Normalization
For these equations to be satisfied
we simply adjust N to be
N is a normalization constant, and this process is called normalization.
1222 dxNdx 1
222 dxdydzNdxdydz
dxN
2
1
dxdydzN
2
1
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Dimension of a wave function
Normalized wave functions in one and three dimensions satisfy
where the right-hand side is dimensionless. Ψ has the dimension of 1/m1/2 (one
dimensional) and 1/m3/2 (three dimensional).
12 dx 1
2 dxdydz
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Example
Normalize the wave function e–r/a0.
Hint 1:
Hint 2:
0 1
!n
axn
a
ndxex
0 0
2
0
2
Space Whole
sin),,(),,(
dddrrrfdxdydzzyxf
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Hint 2
0 0
2
0
2
Space Whole
sin),,(),,(
dddrrrfdxdydzzyxf
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Example The normalization constant is given by
ddrdrdxdydzN
sin
11222
303
0
2
000
2/222
22)/2(
2
sinsin 0
aa
dddrreddrdr ar
00 /
30
/
30
1;
1 arar ea
Nea
N
Dimension 1/m3/2
2cossin 00
d
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Normalization andtime-dependent SE
If Ψ is a normalized solution of time-independent SE, Ψeik for any real value of k is also a normalized solution of SE because
The simplest example is when eiπ = –1. Ψ and –Ψ are both normalized and with the same probability density |Ψ|2.
*2 *
2 2
ik ik ik ik ik
ik ik
e e e e e
e e
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Normalization and time-dependent SE
Therefore, both Ψ and Ψeik correspond to the same time-independent system. In other words, a time-independent wave function has inherent arbitrariness of eik where k is any real number. For example, Ψ and –Ψ represent the same time-independent state.
Let us revisit time-dependent and independent Schrödinger equations.
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Time-dependent vs. time-independent
![Page 22: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/22.jpg)
Time-dependent vs. time-independent
tEi
xtx extxtx
)()()(),(
Time-independent Schrödinger equation
Time-dependent Schrödinger equation
If we substitute the wave function into time-dependent equation we arrive at time-independent one.
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Normalization and time-dependent SE
This means even though this wave function has apparent time-dependence
it should be representing time-independent physical state.
In fact (which we call “phase”) is viewed as the arbitrariness eik. Probability density is
tEi
xtx extxtx
)()()(),(
tEi
e
2
2
2)()(),( xextx x
tEi
x
Essentially time-independent!
![Page 24: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/24.jpg)
Time-dependent vs. time-independent
tEi
xtx extxtx
)()()(),(
![Page 25: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/25.jpg)
What is a “phase”?tEi
xtx extxtx
)()()(),(
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Allowable forms of wave functions
The Born interpretation: the square of a wave function is a probability density.
This immediately bars a wave function like figure (c), because a probability should be a unique value (single valued)
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Allowable forms of wave functions
Probability should add up to unity, when all possibilities are included. Square of a wave function should integrate to unity.
This bars a function like (d) because it integrates to infinity regardless of any nonzero normalization constant (square integrable).
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Allowable forms of wave functions Apart from the Born
interpretation, the form of the Schrödinger equation itself set some conditions for a wave function.
The second derivatives of a wave function must be well defined.
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Allowable forms of wave functions
For the second derivative to exist, the wave function must be continuous, prohibiting a function like (a) which is discontinous.
It is also impossible to imagine a system where the probability density changes abruptly.
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Allowable forms of wave functions
For the second derivatives to be nonsingular, the wave function should usually be smooth, discouraging a kinked function like (b).
There are exceptions. When the potential V also has a singularity, a kinked wave function is possible.
![Page 31: Lecture 5 The meaning of wave function (c) So Hirata, Department of Chemistry, University of Illinois at Urbana-Champaign. This material has been developed.](https://reader035.fdocuments.us/reader035/viewer/2022062620/551a9481550346761a8b59c5/html5/thumbnails/31.jpg)
Existence of first andsecond derivatives
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Summary
The Born interpretation relates the wave function to the probability density of a particle.
A wave function can be normalized such that square of it integrates to unity (100 % probability of finding a particle somewhere).
A wave function should be single-valued, square-integrable, continuous, and (smooth)*.
*Exceptions exist.