6. A beam of atoms /=1, s=1/2, j=3/2 passes through a SG apparatus with a magnetic field that is small compared to the spin-orbit interaction field (Bint) and there are four emerging beams with equal numbers of atoms. Each beam then passes into a SG apparatus in which the field is strong compared to Bint, with the direction of all magnetic fields being the same. Into how many beams is each of the four beams further split and what are the relative numbers of atoms?
6. A beam of atoms /=1, s=1/2, j=3/2 passes through a SG apparatus with a magnetic field that is small compared to the spin-orbit interaction field (Bint) and there are four emerging beams with equal numbers of atoms. Each beam then passes into a SG apparatus in which the field is strong compared to Bint, with the direction of all magnetic fields being the same. Into how many beams is each of the four beams further split and what are the relative numbers of atoms?
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Transcribed Image Text:6. A beam of atoms /=1, s=1/2, j=3/2 passes through a SG apparatus with a magnetic
field that is small compared to the spin-orbit interaction field (Bint) and there
are four emerging beams with equal numbers of atoms. Each beam then passes into a
SG apparatus in which the field is strong compared to Bint, with the direction of all
magnetic fields being the same.
Into how many beams is each of the four beams further split and what are the relative
numbers of atoms?
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