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The use of high-resolution bright-field microscopy is essential for cellular-scale biological research, but this technique has limitations due to low image contrast. Using dyes on the sample can ...

Electrons are tiny and constantly in motion. How they behave in a crystal lattice determines key material properties: electrical conductivity, magnetism, or novel quantum effects. Anyone aiming to ...

A global leader in agricultural genetics sought durable, economical UV microscope objectives. Issues in meeting these objectives included optical design complexity, wavefront control, and fabrication ...

a, absorption of light in biological materials is significantly increased in the deep UV, yet conventional optical materials also stop being transparent. b, a purpose-built UV microscope enables the ...

There are various microscopies to monitor chemical processes on such surfaces -- they use, for example, ultraviolet light, X-rays or electrons. But no single method alone provides a complete picture.

Ultraviolet light has always sat at the edge of human perception, powerful yet invisible, more associated with sterilizing lamps and sunburn than with high speed data. That is starting to change as ...

The LIG Nanowise SMAL ™ (Super-Resolution Microsphere Amplifying Lens) is an optical module designed to achieve lateral resolution far beyond the diffraction limit of conventional microscopy. To ...