Extra-thin infrared camera for low-cost surveillance applications.

We designed a cheap broadband uncooled microimager operating in the long-wavelength infrared range using only one lens at a minimal cost for the manufacturing process. The approach is based on thin optics where the device volume is small and therefore inexpensive materials can be used because some absorption can be tolerated. We have used a Fresnel lens on a thin silicon substrate. Up to now, Fresnel lenses have not been used for broadband imaging because of their chromatic properties. However, working in a relatively high diffraction order can significantly reduce chromatism. A prototype has been made for short range or indoor low-cost surveillance applications like people counting, and experimental images are presented.

[1]  K. Miyamoto The Phase Fresnel Lens , 1961 .

[2]  G. M. Morris,et al.  Design of a wide field diffractive landscape lens. , 1989, Applied optics.

[3]  G. Swanson Binary Optics Technology: The Theory and Design of Multi-Level Diffractive Optical Elements , 1989 .

[4]  G E Sommargren,et al.  Harmonic diffractive lenses. , 1995, Applied optics.

[5]  G. M. Morris,et al.  Spectral properties of multiorder diffractive lenses. , 1995, Applied optics.

[6]  Liping Zhao,et al.  Achromatic design strategies with diffractive optical elements , 1999, International Symposium on Photonics and Applications.

[7]  A. Rogalski Infrared detectors: an overview , 2002 .

[8]  Andrew Wood,et al.  Diffractive optics in modern optical engineering , 2005, SPIE Optics + Photonics.

[9]  Oltmann Riemer,et al.  Diamond machining of micro-optical components and structures , 2010, Photonics Europe.

[10]  Alan Symmons,et al.  Molding aspheric lenses for low-cost production versus diamond turned lenses , 2010, Defense + Commercial Sensing.

[11]  Junoh Choi,et al.  Practical implementation of broadband diffractive optical elements , 2013, Photonics West - Micro and Nano Fabricated Electromechanical and Optical Components.

[12]  Alan Symmons,et al.  A practical approach to LWIR wafer-level optics for thermal imaging systems , 2013, Defense, Security, and Sensing.