3.012 fund of mat sci: bonding – lecture 3 ghost in the machine · 2020. 12. 30. · 3.012...
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
3.012 Fund of Mat Sci: Bonding – Lecture 3
GHOST IN THE MACHINE
Image of a quantum mirage produced by a Co atom placed in the focus of a Co elliptical corral, removed for copyright reasons. Don Eigler, IBM Almaden, Nature (2000). See http://domino.watson.ibm.com/comm/pr.nsf/pages/rscd.quantummirage-picb.html/$FILE/mirage2.jpg
@Bobby Douglas, from photo.net
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Last time: Schrödinger equation
1. Time-dependent Schrödinger equation for one electron in a potential V(r,t) (a plane wave satisfies this eqn.)
2. For a stationary potential V(r), we introduced the method of separation of variables, and obtained a) the stationary Schrödinger equation for the spatial part φ(x), and b) the equation for the time-dependent function f(t)
3. Homework: for a free particle it is easy to obtain φ(x) and f(t), and one obtains back the equation of a plane wave
4. Studied a free particle in an infinite well (particle in a box)
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Homework for Fri 16
• Study: 15.3 (2-,3-dim box), 16.3 (π-electrons in conjugated molecules), 16.5-6 (scanning tunnelling microscope)
• Optional read: 1986 Nobel lecture by Binnig and Rohrer (on MIT Server)
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Physical Observables from Wavefunctions• Eigenvalue equation: (the operator is obtained
via the “correspondence” principle)
• Expectation values for the operator (energy)2 2
2( ) ( ) ( )2
E x V x x dxm x
ϕ ϕ∗ ⎡ ⎤∂= − +⎢ ⎥∂⎣ ⎦∫
h
2 2
2 ( ) ( ) ( ) 2
d V x x E xm dx
ϕ ϕ⎡ ⎤− + =⎢ ⎥⎣ ⎦
h
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Normalization
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Infinite Square Well
2 2
2
( ) ( )2d x E x
m dxϕ ϕ− =
h
20
18
16
14
12
10
8
6
4
2
00.0 0.2 0.4 0.6 0.8 1.0
x/a
Ene
rgy
or w
ave
func
tion
valu
eFigure by MIT OCW.
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Infinite Square Well
20
18
16
14
12
10
8
6
4
2
0
Ene
rgy
Figure by MIT OCW.
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Absorption Lines (atomic units)
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
The power of carrots
• β-carotene
Photo courtesy of Andrew Dunn.
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Particle in a 2-dim box2 2 2
2 2 ( , ) ( , )2
x y E x ym x y
ϕ ϕ⎛ ⎞∂ ∂
− + =⎜ ⎟∂ ∂⎝ ⎠
h
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Particle in a 2-dim box
( , ) sin sinl x m yx y Ca bπ πϕ ⎛ ⎞ ⎛ ⎞= ⎜ ⎟ ⎜ ⎟
⎝ ⎠ ⎝ ⎠
2 2 2
2 28h l mEm a b⎛ ⎞
= +⎜ ⎟⎝ ⎠
3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Particle in a 3-dim box: Farbe defect in halides (e- bound to a negative ion vacancy)
Figure by MIT OCW.
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
From Carl Zeiss to MIT…
Scanned image of a journal article removed for copyright reasons. See Avakian, P. and A. Smakula. “Color Centers in Cesium Halide Single Crystals.” Physical Review 120, no. 6 (December 15, 1960).
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Light absorption/emission
MIT Research: Bawendi, Mayes, Stellacci
Nicola Marzari:
Porphyrin from http://www.chem.uit.no/KJEMI/publications2.html, Raman spectra
From Mauri and Lazzeri Phys. Rev. Lett. Paper
Nicola Marzari:
Porphyrin from http://www.chem.uit.no/KJEMI/publications2.html, Raman spectra
From Mauri and Lazzeri Phys. Rev. Lett. Paper
Courtesy of Felice Frankel. Used with permission.
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3.012 Fundamentals of Materials Science: Bonding - Nicola Marzari (MIT, Fall 2005)
Image removed for copyright reasons.
See the chart of various diamondoids at http://www.physik.tu-berlin.de/cluster/diamondoids.html.
Scanned image of a journal article removed for copyright reasons. See Willey, T. M. et al. “Molecular Limits to the Quantum Confinement Model in Diamond Clusters.” Physical Review Letters 95 (September 9, 2005).