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new lecture notes
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lecture_notes/4-4/overview
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lecture_notes/4-4/overview
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Review of Braket notation
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━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━
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Moving toward the interaction of two spins
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(pic) Set up one spin Braket notation
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(pic) some spin geometry, showing how certain currents attract eachother
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Two Spins
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━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━
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Chapter 5 - Two Spins
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(pic) 𝐒₁⋅𝐒₂ OR 2A/ħ²𝐒₁⋅𝐒₂ in book
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hydrogen spin-orbit hamiltonian Ĥ = -γ 𝐒⋅𝐋
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4 possible states
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❙S₁𝓏=+½ S₂𝓏=+½❭ = ❙½❭⨂❙½❭
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❙S₁𝓏=+½ S₂𝓏=-½❭
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❙S₁𝓏=-½ S₂𝓏=+½❭
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❙S₁𝓏=-½ S₂𝓏=-½❭
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(pic) expanded ❙½❭⨂❙½❭
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(pic x2) finding representations for all of the operators in the two-spin system
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(pic) Worked out some operations on various possible states, using direct product spaces
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(pic x2) Diagonalized 𝐒₁⋅𝐒₂
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!!! missing a factor of 2 somewhere in these pictures
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lecture_notes/4-5/overview
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Started with vector potential
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(pic) Demonstrated why 𝐉ᵦ = ∇×𝐌
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(pic) Find magnetic field of a uniformly magnetized sphere
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this development ended up converging with the sphere of constant surface charge
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(pic) Started with a reminder of displacement definition and origin.
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(pic) This leads to an analogy with 𝐉ₜₒₜ = 𝐉𝒻 + 𝐉ᵦ
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leads to very useful ∮𝐇⋅d𝐥 = 𝐈𝒻(s)
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Bit of an aside about how 𝐇 is easier to measure/control compared to 𝐁.
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(pic) An example of finding 𝐁 outside a thick rod.
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actually didn't develop this, but just warned about that M has a
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divergence at the edges, so 𝐇 is not so easy to find.
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Introduced linear materials
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𝐌 = χₘ 𝐇
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χₘ > 0 (paramagnetic)
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χₘ < 0 (diamagnetic)
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Example: an infinite solenoid carrying a surface current 𝐊 = K ϕ̂ filled
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with material of susceptibility χₘ. Find 𝐁.
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(pic) found 𝐇, then 𝐁, then bound and free 𝐊
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