Mathematical Methods for Physics and Engineering : A Comprehensive Guide

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13.1 FOURIER TRANSFORMS


Ignoring in the present context the effect of the termAaexp(iωct), which gives a


contribution to the transmitted spectrum only atω=ωc, we obtain for the new


spectrum


̃g(ω)=

1

2 π

A

∫∞

−∞

f(t)eiωcte−iωtdt

=

1

2 π

A

∫∞

−∞

f(t)e−i(ω−ωc)tdt

=A ̃f(ω−ωc), (13.34)

which is simply a shift of the whole spectrum by the carrier frequency. The use


of different carrier frequencies enables signals to be separated.


13.1.6 Odd and even functions

Iff(t) is odd or even then we may derive alternative forms of Fourier’s inversion


theorem, which lead to the definition of different transform pairs. Let us first


consider an odd functionf(t)=−f(−t), whose Fourier transform is given by


̃f(ω)=√^1
2 π

∫∞

−∞

f(t)e−iωtdt

=

1

2 π

∫∞

−∞

f(t)(cosωt−isinωt)dt

=

− 2 i

2 π

∫∞

0

f(t)sinωt dt,

where in the last line we use the fact thatf(t)andsinωtare odd, whereas cosωt


is even.


We note that ̃f(−ω)=− ̃f(ω), i.e. ̃f(ω) is an odd function ofω. Hence

f(t)=

1

2 π

∫∞

−∞

̃f(ω)eiωtdω=√^2 i
2 π

∫∞

0

̃f(ω)sinωt dω

=

2
π

∫∞

0

dωsinωt

{∫∞

0

f(u)sinωu du

}
.

Thus we may define theFourier sine transform pairfor odd functions:


̃fs(ω)=


2
π

∫∞

0

f(t)sinωt dt, (13.35)

f(t)=


2
π

∫∞

0

̃fs(ω)sinωt dω. (13.36)

Note that although the Fourier sine transform pair was derived by considering


an odd functionf(t) defined over allt, the definitions (13.35) and (13.36) only


requiref(t)and ̃fs(ω) to be defined for positivetandωrespectively. For an

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