1.8) A hydrogen atom is in the state In,1,m) = 12,1,0). At the time 1 = 0 it is placed in a time-dependent electric fiel

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1 8 A Hydrogen Atom Is In The State In 1 M 12 1 0 At The Time 1 0 It Is Placed In A Time Dependent Electric Fiel 1 (27.17 KiB) Viewed 43 times

1 8 A Hydrogen Atom Is In The State In 1 M 12 1 0 At The Time 1 0 It Is Placed In A Time Dependent Electric Fiel 2 (27.17 KiB) Viewed 43 times

1 8 A Hydrogen Atom Is In The State In 1 M 12 1 0 At The Time 1 0 It Is Placed In A Time Dependent Electric Fiel 3 (27.17 KiB) Viewed 43 times

1 8 A Hydrogen Atom Is In The State In 1 M 12 1 0 At The Time 1 0 It Is Placed In A Time Dependent Electric Fiel 4 (13.87 KiB) Viewed 43 times

1.8) A hydrogen atom is in the state In,1,m) = 12,1,0). At the time 1 = 0 it is placed in a time-dependent electric field E = Ege fu+2E,e tu,, where E, and r are constants and u, and u, are the unit vectors in the x and y directions. This results in a time-dependent perturbation eEr, where e is the elementary charge and † the position operator of the electron with respect to the nucleus. Using first-order time-dependent perturbation theory, calculate the probability of finding the hydrogen atom in the state 5,3,1) for any time => 0. [6 marks)
1.8) A hydrogen atom is in the state In,1,m) = 12,1,0). At the time 1 = 0 it is placed in a time-dependent electric field E = Ege fu+2E,e tu,, where E, and r are constants and u, and u, are the unit vectors in the x and y directions. This results in a time-dependent perturbation eEr, where e is the elementary charge and † the position operator of the electron with respect to the nucleus. Using first-order time-dependent perturbation theory, calculate the probability of finding the hydrogen atom in the state 5,3,1) for any time => 0. [6 marks)
• In first-order time-dependent perturbation theory, the probability amplitude C--) for a transition due to the time-dependent perturbation (x,1) from the state ®) to the state Mw) is: di ©(o)=(. )(37) a delen av