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Panasonic has developed unique ‘micro colour splitters’, which separate the light that falls on image sensors by exploiting light's wavelike properties. Applying them to actual image sensors allows bright colour images to be achieved even under low-light conditions. This development makes colour filters unnecessary by using the micro colour splitters that control the diffraction of light at a microscopic level. Panasonic has achieved approximately double the colour sensitivity in comparison with conventional sensors that use colour filters.

Image sensors are used in devices like smartphones, digital still cameras and video cameras, as well in security, vehicle parking, office, and healthcare applications - anywhere, in fact, that digital imaging is needed. Conventional colour image sensors use a Bayer array, in which a red, green, or blue light-transmitting filter is placed above each sensor. These filters block 50 - 70% of the incoming light before it even reaches the sensor. Progress is being made in increasing the resolution of image sensors used in mobile and other devices by reducing pixel size, but demand for higher-sensitivity cameras is also increasing. Panasonic has developed a new technology that can be applied to existing or future sensors to enable them to capture uniquely vivid colour images.

The developed technology has the following features:

  1. Using colour alignment, which can use light more efficiently, instead of colour filters, vivid colour photographs can be taken at half the light levels needed by conventional sensors.
     
  2. Micro colour splitters can simply replace the colour filters in conventional image sensors, and are not dependent on the type of image sensor (CCD  or CMOS ) underneath.
     
  3. Micro colour splitters can be fabricated using inorganic materials and existing semiconductor fabrication processes.

This development is based on the following new technology:

  1. A unique method of analysis and design based on wave optics that permits fast and precise computation of wave-optics phenomena.
     
  2. Device optimisation technologies for creating micro colour splitters that control the phase of the light passing through a transparent and highly-refractive plate-like structure to separate colours at a microscopic scale using diffraction.
     
  3. Layout technologies and unique algorithms that allow highly sensitive and precise colour reproduction by combining the light that falls on detectors separated by the micro colour splitters and processing the detected signals.

Panasonic holds 21 Japanese patents and 16 overseas patents, including pending applications, for this development.

This development is described in general terms in the Advance Online Publication version of Nature Photonics issued on February 3, 2013.

 More on the Technology:

  1. Unique method of analysis and design based on wave optics permitting fast and precise computation of wave-optics phenomena FDTD  is widely used to analyse light in wave form, but its heavy computation workload has up to now made it impractical for designing micro colour splitters. On the other hand, BPM  is an effective method of fast computation, but it has lower precision than FDTD and cannot accurately simulate colour splitting. This prompted Panasonic to develop a practical and original design method that permits fast and precise computation of wave-optics phenomena. This technology allows the precise modelling of optical phenomena such as reflection, refraction, and diffraction by modelling spaces in regions with different optical constants and applying BPM to the spaces. This method can be applied not only to the design of micro colour splitters, but can be extended to the design of other nano-scale optical processing systems.
     
  2. Device optimisation technologies leading to the creation of micro colour splitters that control the phase of the light passing through a transparent and highly-refractive plate-like structure and use diffraction to separate colours on a microscopic scale Colour separation of light in micro colour splitters is caused by a difference in refractive index between a) the plate-like high refractive material that is thinner than the wavelength of the light and b) the surrounding material. Controlling the phase of travelling light by optimising the shape parameters causes diffraction phenomena that are seen only on a microscopic scale and which cause colour separation. Micro colour splitters are fabricated using a conventional semiconductor manufacturing process. Fine-tuning their shapes causes the efficient separation of certain colours and their complementary colours, or the splitting of white light into blue, green, and red like a prism, with almost no loss of light.
     
  3. Layout technologies and unique algorithms that enable highly sensitive and precise colour reproduction by overlapping diffracted light on detectors separated by micro colour splitters and processing the detected signals Since light separated by micro colour splitters fall on the detectors in an overlapping manner, a new pixel layout and design algorithm are needed. The layout scheme is combined and optimised using an arithmetic processing technique designed specifically for mixed colour signals. The result is highly sensitive and precise colour reproduction. For example, if the structure separates light into a certain colour and its complementary colour, colour pixels of white + red, white - red, white + blue, and white - blue are obtained and, using the arithmetic processing technique, are translated into normal colour images without any loss of resolution
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