Patent ID: 11959882
Assignee: RIKEN
Field: Measurement (Instruments)
Classification: CPC G | IPC G

Claim 0:
1. A photoacoustic microscope comprising:
a multi-wavelength light source;
an optical waveguide connected to the multi-wavelength light source wherein multi-wavelength light emitted from the optical waveguide is divergent light;
a reflective collimator that collimates the divergent light emitted from the optical waveguide, by reflecting the divergent light;
a first axicon lens to which the collimated light is incident and which is configured to form diverging ring-shaped light;
a lens to which the ring-shaped light formed by the first axicon lens is incident and which is configured to form ring-shaped collimated light;
a ring-shaped condensing mirror that is configured to condense the ring-shaped collimated light formed by the lens;
a detector that is configured to detect acoustic waves caused by light condensed by the condensing mirror; and
a processing apparatus that is configured to generate, based on an acoustic wave caused by light having a first wavelength condensed by the condensing mirror and an acoustic wave caused by light having a second wavelength condensed by the condensing mirror, the wavelength of the light having the first wavelength different from the wavelength of the light having the second wavelength, an image of an object irradiated with the light having the first wavelength condensed by the condensing mirror and the light having the second wavelength condensed by the condensing mirror;
wherein the image of the object shows a first feature of the object corresponding to the acoustic wave caused by the light having the first wavelength condensed by the condensing mirror and a second feature of the object corresponding to the acoustic wave caused by the light having the second wavelength condensed by the condensing mirror, the first feature and the second feature stylistically different; and
wherein the light irradiating the object is switched at a high speed by the multi-wavelength light source between the light having the first wavelength and the light having the second wavelength.