Abstract:
The matched filter method for detecting a periodic structure on a surface hidden behind randomness is known to detect up to (r0/Λ)≥0.11, where r0 is the coherence length of light on scattering from the rough part and Λ is the wavelength of the periodic part of the surface—the above limit being much lower than what is allowed by conventional detection methods. The primary goal of this technique is the detection and characterization of the periodic structure hidden behind randomness without the use of any complicated experimental or computational procedures. This paper examines this detection procedure for various values of the amplitude a of the periodic part beginning from a=0 to small finite values of a. We thus address the importance of the following quantities: '(a/λ)', which scales the amplitude of the periodic part with the wavelength of light, and (r0/Λ), in determining the detectability of the intensity peaks.