An ultrashort pulse laser scan device
A technology of ultra-short pulse laser and scanning device, applied in optics, optical components, nonlinear optics, etc., can solve the problems of complicated optical path design, and achieve the effect of improving focusing quality, high transmittance, and facilitating wide-scale popularization and application.
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example 1
[0030] Build the test light path as shown in Figure 3. Laser 4 incident laser light (center wavelength 800 nanometers, bandwidth 10 nanometers, initial pulse width 120 femtoseconds) passes through the acousto-optic modulator 1 placed obliquely at 45 degrees, and exits with negative first-order diffracted light. The modulation frequency of the acousto-optic modulator 1 135.7MHz. Since the AOD used in this experiment is sensitive to the polarization state of the incident light, a 1 / 2 wave plate 5 is arranged between the AOM 1 and the two-dimensional AOD. The laser beam passes through the 1 / 2 wave plate 5 and then goes to the two-dimensional acousto-optic deflector with a central operating frequency of 96MHz. The two-dimensional acousto-optic deflectors all use positive first-order diffracted light, the outgoing light hits the light screen 6, and the CCD 7 is used to capture the light spot on the light screen to obtain the result shown in Figure 5(a). The laser beam is not comp...
example 2
[0034] The laser beam after space and time compensation is guided into the microscope objective lens 8 (a 60 times oil lens is used in the experiment, NA=1.24), and the optical path is shown in FIG. 8 . The dichroic mirror 9 is used to reflect the excitation light and transmit the signal light, and the PMT 10 is used for signal detection. Scan the 170nm fluorescent bead sample 11 to get the experimental picture as shown in Fig. 9, and analyze the X and Y axis resolutions, which are measured to be 374 and 385 nanometers respectively, as shown in Fig. 10(a) and 10(b). Using PZT for Z-axis resolution measurement, the minimum Z-axis resolution is 1.1 microns, as shown in Figure 10(c).
[0035]For the AOM 1, its modulation frequency is often higher (for example, to compensate the dispersion of a two-dimensional AOD with a center operating frequency of 96 MHz, the modulation frequency of the AOM 1 needs to be loaded to 135.74 MHz). For near-infrared or infrared lasers, there are so...
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