Multiphoton microscopy (MPM) is a powerful imaging technique widely used in biological and biomedical research.

In the last decade, two techniques have revolutionized fluorescence microscopy: the development of genetically encoded fluorophores, such as GFP 5,6 and the invention of two-photon microscopy 7.

A miniature head-mounted two-photon microscope small enough ... All the microscope optics reside in the miniature microscope, while the excitation and emission light are delivered and collected ...

According to a study published in Science Advances, researchers from Madrid explain why the angular profile of light emission ...

The report spotlights the versatility of the microscope by combining ISM and time-resolved measurements with stimulated emission depletion (STED ... The work demonstrates that SPAD array detectors ...

The scientists deterministically create and place quantum emitters within the WS 2 using the atomic force microscope (AFM ... field activates single photon emission from atomic scale defect ...

Although two-photon microscopy provides detailed images, it is slow and can damage brain tissue. In the new work, the ...

Fluorescence lifetime imaging microscopy (FLIM) excels over the widely used fluorescence intensity imaging by allowing the measurement of absolute signal levels, independent of sensor concentration.

"When the AFM tip is removed, the WS 2 conforms to the contour of the nanoindent, and the local strain field activates single photon emission ... conductive piezo force microscopy tip was used ...