Possible values and their Probability of Measuring S^2 - Spin

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SUMMARY

The discussion focuses on calculating the possible values and probabilities of measuring S^2 for a system of two spin-1/2 particles, represented by the Hamiltonian H = w1 S1z + w2 S2z. The eigenvalues for S^2 are established as 2ħ² and 0, with the initial state given by Ψ(0) = a |↑↓⟩ + b |↓↑⟩. To find the probabilities of measuring S^2, the state must be expressed in terms of the eigenstates of S^2, specifically using linear combinations of the states |+,−⟩ and |−,+⟩, which correspond to the eigenvalues 2ħ² and 0, respectively.

PREREQUISITES
  • Understanding of quantum mechanics concepts, specifically spin-1/2 particles.
  • Familiarity with Hamiltonians and their role in quantum systems.
  • Knowledge of eigenvalue equations and how to apply them to quantum states.
  • Ability to manipulate linear combinations of quantum states.
NEXT STEPS
  • Study the addition of angular momentum in quantum mechanics.
  • Learn how to express quantum states in terms of different bases, particularly for spin systems.
  • Explore the time evolution of quantum states using the Schrödinger equation.
  • Investigate the calculation of probabilities from quantum state coefficients.
USEFUL FOR

Students and professionals in quantum mechanics, particularly those studying spin systems, quantum state measurements, and angular momentum. This discussion is beneficial for anyone looking to deepen their understanding of quantum probabilities and eigenvalue problems.

cp51
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Homework Statement


I have a two spin 1/2 particles. The Hamiltonian for the system is given as H = w1 S1z + w2 S2z. I need to find the possible values and their probabilities when I measure S^2 at some later time T. Also the Initial state \Psi (0) = a | \uparrow \downarrow > + b | \downarrow \uparrow>

Homework Equations


The Attempt at a Solution



Now I know for a 2 spin 1/2 particle system, s = 1 and 0.

The eigenvalue equation for S2 is S2|sm> = hbar2 ( s ( s+1) )|sm>

So the possible values are 2 \hbar^2 and 0.

I know at some later time, the state will look like \Psi(t) = a e{-iE_1 t/ \hbar} + b e{-iE_2 t/ \hbar}

and I can find E_1 and E_2

However, how do i find the probabilities?

If I was just looking for S_z probabilities, I know it would be a2 for spin up and b2 for spin down. I also know that if I was looking for S_x I would need to evolve the coefficients in time. However, how do I measure the probabilities of S2?
 
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You need to express |\psi(t)\rangle in terms of the eigenstates of S2. Do you know how to do that?
 
Hmm, I'm not positive... is that writing it in |10> and |00> states? I am not exactly sure how to do this. Can you help get me moving in the right direction?

thanks for the help.
 
Yes, that's what I mean. Do you know how to express those states as linear combinations of |\uparrow\,\downarrow\,\rangle and |\downarrow\,\uparrow\,\rangle? If not, you should figure out how to do that. It's probably covered in your textbook as it's a pretty common example of the addition of angular momentum.
 
Ok, I think I got it,

so using:

e1 = \frac{1}{\sqrt{2}}(|+,-> + |-,+>) with eigenvalue 2hbar^2

and

e2 = \frac{1}{\sqrt{2}}(|+,-> - |-,+>) with eigenvalue 0

I rewrite: |+,-> as (e1 + e2)*(sqrt(2)/2) and |-,+> as (e1 - e2)*(sqrt(2)/2)

Combine e1 and e2 terms. And then the coefficients squared give me the probabilities of measuring each eigenvalue as a function of time.

Sound good?

Thanks for your help.
 
Yup, good job!
 

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