RU2005111797A - DEVICE FOR FORMING IMAGES WITH HIGH RESOLUTION INSIDE TRANSPARENT OR LOW-TRANSPARENT SOLID MATERIAL - Google Patents

Claims (3)

1. A device for forming images in a transparent or semi-transparent material containing a pulsed laser, two telescopic systems with adjustable focal lengths, an optical focusing system, a system for ensuring mutual movement of the focus area and the sample, as well as a computer connected to a pulsed laser and the specified system for ensuring mutual moving the focusing area and the sample, characterized in that the pulsed laser is made in the form of a copper vapor laser with radiation wavelengths of 0.51 μm and 0.5 8 μm, the optical focusing system is made in the form of an achromatic lens, the device additionally contains an optical delay line located between the pulsed laser and the system for ensuring mutual movement of the focus area and the sample and containing two dichroic mirrors made and installed with the possibility of transmission without changing the direction of radiation from one of these two wavelengths and with the possibility of reflection of radiation from the other of the indicated wavelengths, and two reflective rotary mirrors, made x with the possibility of reflecting radiation with a specified different wavelength, all four of these mirrors are mounted so that the axis of radiation between the four mirrors form a rectangle, the device further comprises a computer-connected means for simultaneously moving said reflective rotary mirrors to change the optical path length reflected from the first dichroic radiation mirrors, one of these telescopic systems is installed directly between dichroic mirrors, and the other is directly between the indicated reflective rotary mirrors. 2. The device according to claim 1, characterized in that the dichroic mirrors are configured to transmit radiation with a wavelength of 0.51 microns and reflect radiation with a wavelength of 0.58 microns, and these reflective rotary mirrors are configured to reflect radiation with a wavelength 0.58 μm. 3. The device according to claim 1, characterized in that the dichroic mirrors are configured to transmit radiation with a wavelength of 0.58 microns and reflect radiation with a wavelength of 0.51 microns, and these reflective rotary mirrors are configured to reflect radiation with a wavelength 0.51 μm.