phy331 magnetism - university of sheffield/file/phy331-l4.pdf · 2011-11-30 · phy331 magnetism...
TRANSCRIPT
![Page 1: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/1.jpg)
PHY331 Magnetism
Lecture 4
![Page 2: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/2.jpg)
Last week…
• Discussed Langevin’s theory of diamagnetism.
• Use angular momentum of precessing electron in magnetic field to derive the magnetization of a sample and thus diamagnetic susceptibility.
• Set the scene for the calculation of paramagnetic susceptibility.
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This week… • Will calculate the paramagnetic susceptibility
using an entirely classical approach. • We will obtain Curie’s Law for a paramagnet.
• We will then start to put quantum framework together to obtain a quantum theory of paramagnetism. €
χ =MH
=µ0Nm
2
3kT=
CT
![Page 4: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/4.jpg)
The calculation of the magnetisation M Recall the energy of a dipole in a field
(3)
(4)
The number of dipoles with energy between E and E + dE will be,
If we substitute (3) and (4), this is also the number of dipoles with orientation between θ and θ + dθ
€
E = −m ⋅ B
€
E = −mB cosθ
€
dE = +mB sinθ dθ
€
dn = c exp −E kT( ) dE
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which is (2) in the equation above.
The resolved component of the dipoles with this orientation which is (1) in the equation above, is clearly just,
(1)
therefore the total magnetisation is,
(5)
for convenience, we can write,
(6)
Where N = the total number of dipoles and <m> = their average component in the field direction
€
mcosθ
€
M = mcosθ dn0
∞
∫
€
M = N m
€
M =∑ [1] Resolved component of a dipole in field direction X [2] Number of dipoles with
this orientation
![Page 6: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/6.jpg)
hence using (5) and (6)
so substituting we get,
€
mm
=
cosθ dn0
N∫
N=
cosθ dn0
N∫
dn0
N∫
€
mm
=
cosθ cmB sinθ exp mB cosθ kT( ) dθ0
π
∫
cmB sinθ exp mB cosθ kT( ) dθ0
π
∫note: the term inside the expo nential is positive, because it has one negative sign from the - E and another from the - mBcos
also, this equation is one of the general type ∫∫= dmdmxx
![Page 7: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/7.jpg)
to simplify and solve the above, substitute,
which gives,
whose solution is
Langevin function L(a)
€
x =mB cosθkT
= a cosθ
€
mm
=
1a
x ex dx−a
a∫
ex dx−a
a∫
€
mm
=ea +e−a
ea − e−a−1a
€
mm
= L(a)
€
m = mL(a)
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Langevin Function
Plot as a function of
€
a =mBkT
€
a =mBkT
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Now
where
Can see that Magnetization increases as the applied field (B) increases or, it decreases as the temperature T increases. This confirms that there is “competition” between these two factors,
€
M = N m = NmL a( )
€
a =mBkT
€
kBT ≈ −m.B
![Page 10: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/10.jpg)
Calculating magnetic susceptibility We have,
or
When a is small the Langevin function L(a) can be expanded as a power series.
When a is small mB << kT Thus this approximation works in the limit of small
applied fields and high temperatures.
€
M = N m
€
M = NmL a( )
€
a =mBkT
![Page 11: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/11.jpg)
so that, or
and the paramagnetic susceptibility is then,
• This is Curie’s Law and C is Curie’s constant
€
L a( ) =a3
+a2
45+2a5
945+ ......... ≈
a3
€
M ≈ Nm a3
€
M ≈Nm2B3kT
≈Nm2µ0H3kT
€
χ =MH
=µ0Nm
2
3kT=
CT
![Page 12: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/12.jpg)
Quantum theory of paramagnetism What changes do we need to make to Langevin’s
classical theory ? i) detailed changes to the way in which the magnetic dipole moment is defined,
The general definition is
Using QM, the angular momentum L is quantised, and every electron is now specified by four quantum numbers
(n l ml s) €
m = m(L)
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n, principal quantum number (energy of the orbit) n = 1, 2, 3,
l, angular momentum quantum number (elliptical orbits of different eccentricity) l = 0, 1, .……(n-1)
ml, magnetic quantum number (describes the orientation of l in B and gives the magnitudes of the aligned components of l )
- l < ml < +l s, spin quantum number (electron spin) s = ±½
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Quantization…. Now, the angular momentum is quantised in
terms of the quantum mechanical eigenvalue
The spin motion is also quantised in terms of its quantum mechanical eigenvalue
Will find that both l and s contribute to magnetic dipole moment…
€
l l+1( )
€
s s+1( )
![Page 16: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/16.jpg)
Next week
• We will see how we can add angular momentum and spin together to define the total angular momentum of an atom (J).
• This will then be used to obtain the magnetic dipole moment of an atom and thus define paramagnetic susceptibility.
• Result will be similar to classical derivation!
![Page 17: PHY331 Magnetism - University of Sheffield/file/PHY331-L4.pdf · 2011-11-30 · PHY331 Magnetism Lecture 4 . Last week… • Discussed Langevin’s theory of diamagnetism. • Use](https://reader034.vdocuments.us/reader034/viewer/2022042322/5f0c67af7e708231d4353c91/html5/thumbnails/17.jpg)
Summary
• We calculated paramagnetic susceptibility using an entirely classical approach and obtained Curie’s Law for a paramagnet.
• We saw that quantization of angular momentum and spin will be important components of a quantum theory of paramagnetism.