still exam 1

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caes 2016-02-25 00:03:45 -05:00
parent 4c4d4d0ead
commit bc9de8cd89
2 changed files with 35 additions and 17 deletions

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@ -24,7 +24,7 @@ and because H is a hermitian operator, 〈a|b〉 = 〈b|a〉, so
〈a|Ĥ|b〉 = δ (〈a|b〉 + 〈a|b〉) = δ 2〈a|b〉;
because of the hermition property,
because of the Hermitian property,
〈b|Ĥ|a〉 = 〈a|Ĥ|b〉 = δ 2〈a|b〉;
finally,
@ -60,13 +60,27 @@ This gives the equation α₁ + α₁|〈a|b〉|² + 2β₁〈a|b〉 = E₁α
β₁ = ͟α͟₁͟(͟E͟₁͟ ͟-͟ ͟1͟ ͟-͟ ͟|͟〈͟a͟|͟b͟〉͟|͟²͟)͟
2〈a|b〉
Using the normalization condition, the values of each constant can be obtained. Plugging the value for α₁ into the equation reveals a quadratic equation.
|α₁|² + |β₁|² = 1, so
|α₁|² + | ͟α͟₁͟(͟E͟₁͟ ͟-͟ ͟1͟ ͟-͟ ͟|͟〈͟a͟|͟b͟〉͟|͟²͟)͟ |² = 1.
|α₁|² + | ͟α͟₁͟(͟E͟₁͟ ͟-͟ ͟1͟ ͟-͟ ͟|͟〈a͟|͟b͟〉͟|͟²͟)͟ |² = 1.
| 2〈a|b〉 |
@ -77,7 +91,7 @@ Using the normalization condition, the values of each constant can be obtained.
_________
α₁ = ±√1 - |β₁|², so
_________ _________
±√̅1 - |β₁|² (1 - E₁) + 2β₁〈a|b〉 + ±√1 - |β₁|² |〈a|b〉|² = 0.
±√1 - |β₁|² (1 - E₁) + 2β₁〈a|b〉 + ±√1 - |β₁|² |〈a|b〉|² = 0.
The quadratic formula therefore says that

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@ -1,6 +1,6 @@
Two operators' matrix representations are known in the |1〉, |2〉, |3〉 basis, where and b are real numbers:
A ≐ B ≐
 ≐ B̂
⎛ a 0 0 ⎞ ⎛ b 0 0 ⎞
⎜ 0 -a 0 ⎟ ⎜ 0 0 -ιb ⎟
⎝ 0 0 -a ⎠ and ⎝ 0 ιb 0 ⎠.
@ -33,15 +33,19 @@ which reduces to
(b) Therefore, these operators commute.
Since the operators commute, they share common eigenstates. Therefore, if the eigenstates for one operator can be determined, they are determined for both operators. Since the problem states that a new set of orthonormal kets need be determined, and the given set are the eigenstates related to the operator A, then the eigenstates of the operator B should be determined.
Since the operators commute, they share a set of common eigenstates. The eigenstates of  are apparent from inspection:
|a₁〉 ≐ ⎛1⎞ |a₂〉 ≐ ⎛0⎞ and |a₃〉 ≐ ⎛0⎞
⎜0⎟ ⎜1⎟ ⎜0⎟
⎝0⎠, ⎝0⎠, ⎝1⎠.
The eigenvalues are already known (λ = b,b,-b.), and using the eigenvalue equations, the eigenstates can be determined. The eigenvalue equation
⎛ b 0 0 ⎞ ⎛ α₁ ⎞ ⎛ b α₁ ⎞ ⎛ α₁ ⎞
⎜ 0 0 -ιb ⎟ ⎜ β₁ ⎟ = ⎜ -ι b γ₁ ⎟ = b ⎜ β₁ ⎟
⎝ 0 ιb 0 ⎠ ⎝ γ₁ ⎠ ⎝ ι b β₁ ⎠ ⎝ γ₁ ⎠ reveals
⎝ 0 ιb 0 ⎠ ⎝ γ₁ ⎠ ⎝ ι b β₁ ⎠ ⎝ γ₁ ⎠
-ι γ₁ = β₁, and
ι b β₁ = γ₁
reveals -ι γ₁ = β₁, which, combined with the normalization condition, will allow the determination of two eigenstates of the B̂.