Problem set 13
... 1. h12i Consider force free motion of a symmetric top with I1 = I2 , as discussed in the lecture. Suppose the axis of the top makes an angle θ , 0 with the fixed direction of L. (a) h6i Find the angle α between the angular velocity vector Ω and angular momentum vector L (α is half the opening angle ...
... 1. h12i Consider force free motion of a symmetric top with I1 = I2 , as discussed in the lecture. Suppose the axis of the top makes an angle θ , 0 with the fixed direction of L. (a) h6i Find the angle α between the angular velocity vector Ω and angular momentum vector L (α is half the opening angle ...
Document
... If the power of 10 is positive, then move the decimal point to the right; if it is negative, then move it to the left. ...
... If the power of 10 is positive, then move the decimal point to the right; if it is negative, then move it to the left. ...
8.4.2 Quantum process tomography 8.5 Limitations of the quantum
... we consider an equivalent description of ε using a fixed set of operators Ei , Ei eim Em for some set of m complex numbers eim. ...
... we consider an equivalent description of ε using a fixed set of operators Ei , Ei eim Em for some set of m complex numbers eim. ...
Lie Groups and Quantum Mechanics
... SO(3) and SU (2) are not isomorphic, but they are “locally isomorphic”, meaning that as long as we consider only small rotations, we can’t detect any difference. However, a rotation of 360◦ corresponds to a element of SU (2) that is not the identity. Technically, SU (2) is a double cover of SO(3). As ...
... SO(3) and SU (2) are not isomorphic, but they are “locally isomorphic”, meaning that as long as we consider only small rotations, we can’t detect any difference. However, a rotation of 360◦ corresponds to a element of SU (2) that is not the identity. Technically, SU (2) is a double cover of SO(3). As ...
