3 Non-Identical Particle System

  • Thread starter Thread starter sn1986j
  • Start date Start date
  • Tags Tags
    Particle System
sn1986j
Messages
2
Reaction score
0

Homework Statement


A system of three non-identical spin one-half particles, whose spin operators are (vectors) s1, s2, s3, is governed by the Hamiltonian

H=A s1(dot)s2 + B (s1+s2)(dot)s3

Find the energy levels and their degeneracies.

Homework Equations


psi=(phi1)(phi2)(phi3)
Hphi=Ephi

The Attempt at a Solution


As non identical particles, I realize that I have to construct a function where psi=(phi1)(phi2)(phi3) and then apply the hamiltonian <psi(H)psi>=E. My problem is that I am having a hard time dealing with generalized operators. Normally, spin operators are given as hbar/2 time the respective pauli matrix. So in this case, are my spin operators still functions of the pauli matrices? How do I denote different states for each vector and how do I apply the spin operators without them being specified? I am very confused.

Also, I am unsure as to what A and B are - are they specific values/functions? or are they just general constants?
 
Physics news on Phys.org
A and B are general constants. What is the dimension of the space in which the Hamiltonian is a linear operator ?
 
I wasn't given any more information than I wrote above
 

Thread 'Initial conditions for orbits around a wormhole'

Hi, I had an exam and I completely messed up a problem. Especially one part which was necessary for the rest of the problem. Basically, I have a wormhole metric: $$(ds)^2 = -(dt)^2 + (dr)^2 + (r^2 + b^2)( (d\theta)^2 + sin^2 \theta (d\phi)^2 )$$ Where ##b=1## with an orbit only in the equatorial plane. We also know from the question that the orbit must satisfy this relationship: $$\varepsilon = \frac{1}{2} (\frac{dr}{d\tau})^2 + V_{eff}(r)$$ Ultimately, I was tasked to find the initial...
View full post »

Thread 'Help to convert units of a simple formula'

The value of H equals ## 10^{3}## in natural units, According to : https://en.wikipedia.org/wiki/Natural_units, ## t \sim 10^{-21} sec = 10^{21} Hz ##, and since ## \text{GeV} \sim 10^{24} \text{Hz } ##, ## GeV \sim 10^{24} \times 10^{-21} = 10^3 ## in natural units. So is this conversion correct? Also in the above formula, can I convert H to that natural units , since it’s a constant, while keeping k in Hz ?
View full post »

Similar threads

Confusion In Writing Identical Particle Wavefunctions
Replies
12
Views
300
Calculate Quantum Partition Function
Replies
1
Views
2K
How does spin magnetization affect energy configurations in non-ideal systems?
Replies
1
Views
1K
Wave Function for a Particle in a Symmetric Infinite Square Well
Replies
7
Views
1K
Excercise on distinguishable particles interacting with Hamiltonian
Replies
1
Views
2K
Entropy of a System of Spin-half Non-interacting Particles
Replies
10
Views
4K
Why are fermion states anti-symmetric under exchange operator?
Replies
1
Views
1K
Time Evolution of Spin in a Magnetic Field
Replies
1
Views
2K
I MWI as applied to measurement of spin 1/2 entangled particle pair
Replies
25
Views
2K
Eigenvalues dependent on choice of $\vec{A}$?
Replies
1
Views
1K

Hot Threads

Recent Insights

Back
Top