Compact units containing optical components such as bandpass filters and dichroic mirrors. Designed specifically for low light level measurements that use PMT modules and high-sensitivity cameras. Can be combined in different configurations. A full system can be built by combining these blocks with a light source and detector. For example, a low cost fluorescence or confocal microscope can be built by combining a laser, optical blocks, and microscope objective lenses.
Optical devices comprised of a bundle of micron-sized optical fibers. Used as a lens to transmit light or an image with high efficiency and low distortion. Ideal when designing and building compact optical devices.
FAC lenses collimate diverging light from a semiconductor laser into a narrow beam with a radiation angle of several milliradians (mrad) or less, to allow efficient use of light.
Capillary lenses collimate x-rays using total reflection. They consist of a bundle of numerous hollow glass capillaries formed into a cylindrical shape with one end gently tapered.
Circular or square glass plates ranging from 0.4 to several dozen millimeters thick with fine glass tubing (capillaries) regularly arranged in a two-dimensional array. Excellent linearity, high precision, and selectable directivity.
Quartz glass flow cells and cuvettes manufactured using our experience and established glass processing technology. We also provide custom-made products.
LCOS-SLM are reflective spatial light phase modulators that freely modulates optical phases and optical phase of laser is modulated by the liquid crystal. Wavefront control of the light can be applied to optical beam photolithography, aberration correction.
Image splitting optics provide one pair of dual wavelength images to cameras.
Electromagnetically driven mirrors that incorporate our unique micro-electro-mechanical systems (MEMS) technology. They offer a wide optical deflection angle, high mirror reflectivity, and low power consumption.
The surface-enhanced Raman spectroscopy (SERS) substrate enhances the Raman scattering light from molecules, making high-sensitivity Raman spectroscopic analysis possible.
Hamamatsu offers ionization-assisting substrates called DIUTHAME that support ionization in mass spectrometry in place of matrix that is currently used for MALDI (matrix-assisted laser desorption/ionization) and also eliminate the cumbersome sample pretreatment process.
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