Philips Research - Download Pictures
Pictures from Philips Research Password
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If you want to download high-resolution versions of the pictures,
please click at the hyperlink below the thumbnail. The use of the pictures is free but in publications the source of these pictures must be mentioned. The source can be found below the caption of the pictures. |
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17 x 13 cm, 300 dpi, 738 KB
Molecular Healthcare Preparation of micro-bubbles for imaging and drug release applications. Photo: Philips |
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17 x 13 cm, 300 dpi, 609 KB
Molecular Healthcare Development of tracers for nuclear molecular imaging. Photo: Philips |
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6 x 5 cm, 300 dpi, 169 KB
Molecular Healthcare The Philips magnetic biosensor has been developed in collaboration with Future Diagnostics and the universities of Wageningen, Eindhoven and Maastricht (the Netherlands). Photo: Philips |
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21 x 10 cm, 300 dpi, 711 KB
Medical Imaging Philips researchers working with the Allura FD10 X-ray fluoroscopy system are developing interventional guidance technology in Briarcliff Manor, NY. Photo: Philips |
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25 x 17 cm, 300 dpi, 1255 KB
Optical Storage Testing set-up for high-speed optical recording research. Photo: Philips |
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25.5 x 8.5 cm, 300 dpi, 508 KB
Optical Storage CD: Scanning electron microscope pictures of details on a CD with the accompanying laser spots. DVD: Scanning electron microscope pictures of details on a DVD with the accompanying laser spots. Blu-ray Disc: Scanning electron microscope pictures of details on a Blu-ray Disc with the accompanying laser spots. Photo: Philips |
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8.5 x 8 cm, 300 dpi, 156 KB
Optical Storage Near-field optical storage is a promising option to further increase the capacity/data density of optical storage systems. It is based on a further increase of the numerical aperture of the lens system, so that the laser light that reads and writes the disc is focused to a smaller diameter and can therefore read/write smaller marks. Photo: Philips |
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5.5 x 5.5 cm, 300 dpi, 159 KB
Optical Storage A 1.45-NA solid-immersion lens is the last element in a near-field optical-disc objective. The lens is 2 mm in diameter and 1 mm thick. An air-gap servo system controls the 25-nm gap between lens and disc without overshoot. Photo: Philips |
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