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Download Scalar Diffraction Theory and Basic Fourier Optics [Hecht 10.2.410.2.6, 10.2.8, 11.211.3 or Fowles Ch. 5]
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Scalar Diffraction Theory and Basic Fourier Optics [Hecht 10.2.410.2.6, 10.2.8, 11.211.3 or Fowles Ch. 5] 1 2 3 Note (see also Fowles Ch. 5): To calculate the diffraction pattern of a circular aperture, we can choose y as the variable of integration. If R (w in the above figure) is the radius of the aperture, then the element of area is taken to be a strip of width dy and length 2 R 2 − y 2 . The amplitude distribution of the diffraction pattern is then given by R U = Ceikr0 ∫ e iky sin (θ ) −R 2 R 2 − y 2 dy . We introduce the quantities u and ρ defined by u = y / R and ρ = kR sin (θ ) . The integral then becomes +1 i ρ u ∫−1 e 1 − u 2 du . This is a standard integral. Its value is π J1 ( ρ ) / ρ where J1 is the Bessel function of the first kind, order one. The ratio J1 ( ρ ) / ρ → 12 as ρ → 0 . The irradiance/intensity distribution is therefore given by 2 ⎡ 2J ( ρ ) ⎤ I =| U | = I 0 ⎢ 1 ⎥ . ρ ⎣ ⎦ The diffraction pattern is circularly symmetric and consists of a bright central disk surrounded by concentric circular bands of rapidly diminishing intensity. The bright central area is know as the Airy disk. It extends to the first dark ring whose size is given by the first zero of the Bessel function, namely, ρ = 3.832 . The angular radius of the first dark ring is thus given by 3.832 1.22λ = ≈θ sin θ = kR D which is valid for small values of θ (in radians). Here D=2R is the diameter of the aperture. 2 4 5 Wave Optics of Lenses 6 Optical Path Difference 7 8 Diffraction Theory of a Lens 9 λ θ w The resolution of the lens as defined by the “Rayleigh” criterion is d / 2 = 0.61λ / θ . For a λ . small angle θ, d / 2 = 0.61λ / sin θ = 0.61 The spot diameter is d = 1.22 λf = 1.22 NA 10