Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

19.1 OPERATOR FORMALISM


represent different states, is a ket that represents a continuum of different states


as the complex numbersc 1 andc 2 are varied.


If we need to specify a state more closely – say we know that it corresponds

to a plane wave with a wave number whose magnitude isk– then we indicate


this with a label; the corresponding ket vector would be written as|k〉. If we also


knew the direction of the wave then|k〉would be the appropriate form. Clearly,


in general, the more labels we include, the more precisely the corresponding state


is specified.


The Dirac notation for the Hermitian conjugate (dual vector) of the ket vector

|ψ〉is written as〈ψ|and is known as abra vector; the wavefunction describing this


state is∫ ψ∗, the complex conjugate ofψ. The inner product of two wavefunctions


ψ∗φdvis then denoted by〈ψ|φ〉or, more generally if a non-unit weight function

ρis involved, by


〈ψ|ρ|φ〉, evaluated as


ψ∗(r)φ(r)ρ(r)dr. (19.1)

Given the (contrived) names for the two sorts of vectors, an inner product like


〈ψ|φ〉becomes a particular type of ‘bra(c)ket’. Despite its somewhat whimsical


construction, this type of quantity has a fundamental role to play in the interpre-


tation of quantum theory, because expectation values, probabilities and transition


rates are all expressed in terms of them. For physical states the inner product of


the corresponding ket with itself, with or without an explicit weight function, is


non-zero, and it is usual to take


〈ψ|ψ〉=1.

Although multiplying a ket vector by a constant does not change the state

described by the vector, acting upon it with a more general linear operatorA


results (in general) in a ket describing a different state. For example, ifψis a state


that is described in one-dimensionalx-space by the wavefunctionψ(x)=exp(−x^2 )


andAis the differential operator∂/∂x,then


|ψ 1 〉=A|ψ〉≡|Aψ〉

is the ket associated with the state whose wavefunction isψ 1 (x)=− 2 xexp(−x^2 ),


clearly a different state. This allows us to attach a meaning to an expression such


as〈φ|A|ψ〉through the equation


〈φ|A|ψ〉=〈φ|ψ 1 〉, (19.2)

i.e. it is the inner product of|ψ 1 〉and|φ〉. We have already used this notation in


equation (19.1), but there the effect of the operatorAwas merely multiplication


by a weight function.


If it should happen that the effect of an operator acting upon a particular ket
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