3.1 Quantization
For the quantization of a given system withwell defined equations of motionit is necessary to
guess a LagrangianL(qi,q ̇i), i.e. to construct a Lagrangian by inspection. qiare the positional
coordinates andq ̇ithe generalized velocities.
With theEuler-Lagrange equations
d
dt∂L
∂q ̇i−
∂L
∂qi= 0 (3)
it must be possible to come back to the equations of motion with the constructed Lagrangian.^1
The next step is toget the conjugate variablepi:
pi=∂L
∂q ̇i(4)
Then theHamiltonianhas to be derived with a Legendre transformation:
H=∑ipiq ̇i−L (5)Now theconjugate variables have to be replaced by the given operators in quantum
mechanics. For example the momentumpwith
p→−i~∇.Now the Schrödinger equation
HΨ(q) =EΨ(q) (6)is ready to be evaluated.
(^1) There is no standard procedure for constructing a Lagrangian like in classical mechanics where the Lagrangian is
constructed with the kinetic energyTand the potentialU:
L=T−U=^12 mx ̇^2 −U
The massmis the big problem - it isn’t always as well defined as for example in classical mechanics.