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Measuring electron spin with multiple Stern–Gerlach apparatus at an angle

Physics Asked by Flying_Banana on April 30, 2021

To separate the two spins of electron of a particular direction, we use Stern-Gerlach apparatuses to apply a non-uniform Magnetic field. Suppose we have two identical electrons and we know their spin adds to 0, and we know their initial spin-state (for concreteness, let’s say they are in the singlet configuration, $lvertpsirangle=frac{1}{sqrt2}(lvertuparrowdownarrowrangle-lvertdownarrowuparrowrangle)$.

Now if we send both electrons in the same direction and measure one of them, then immediately we know the spin of the other.

My questions are:

  1. If we send both electrons at 90 degrees to each other (assume the first electron is always sent in the direction of the known state), then there is no entanglement effect, since one component of spin does not affect another. Is this correct?

  2. If we send both electrons at an arbitrary angle $theta$, then there is some entanglement effect. Is this correct?

  3. If the last statement is correct, how do we determine the correlation in terms of the angle and initial entangled state?

  4. If the initial state is the triplet state instead of single, what effect does that have on the system?

One Answer

The entanglement does not depend on the velocity vectors of the particles. The SG apparatus will determine the spin state of the measured particle, not necessarily the whole system.

By performing a measurement on one particle in a known entangled state you would know what the state of the other particle is as well. You do not need to measure it.

Answered by Mebert on April 30, 2021

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