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Piezo experimental setup

Fig. 1. Experimental setup of the ultrafast confocal microscope. BS1 and BS3 are 50% beam splitters, while BS2 is a dichroic beam splitter. SHG second harmonic generation crystal OBJ microscope objective PZT piezo translator PMT photomultiplier IF interference filter. Fig. 1. Experimental setup of the ultrafast confocal microscope. BS1 and BS3 are 50% beam splitters, while BS2 is a dichroic beam splitter. SHG second harmonic generation crystal OBJ microscope objective PZT piezo translator PMT photomultiplier IF interference filter.
Fig. 10.8 Experimental setup for the CO2 laser-initiated explosion of O3. The expansion of the explosion front is monitored through the time-resolved O3 absorption of several spatially separated UV probe laser beams. The piezo pressure detector allows a time-resolved measurement of the pressure [1388]... Fig. 10.8 Experimental setup for the CO2 laser-initiated explosion of O3. The expansion of the explosion front is monitored through the time-resolved O3 absorption of several spatially separated UV probe laser beams. The piezo pressure detector allows a time-resolved measurement of the pressure [1388]...
Fig. 1. Experimental setup. PBS, polarizing cubic beam splitters M1-M3, cavity mirrors APD, avalanche photodiode detector PZT, piezo-electric transducer, (b) Three-level A -type atomic system. Fig. 1. Experimental setup. PBS, polarizing cubic beam splitters M1-M3, cavity mirrors APD, avalanche photodiode detector PZT, piezo-electric transducer, (b) Three-level A -type atomic system.
Fig. 3.21. Schematic showing an experimental setup for determining the piezo-spectroscopic shifts in the Raman spectrum in a Si substrate immediately surrounding an interconnect line. Fig. 3.21. Schematic showing an experimental setup for determining the piezo-spectroscopic shifts in the Raman spectrum in a Si substrate immediately surrounding an interconnect line.
Figure 3 A schematic diagram of the experimental setup d = density measurement (vibrating U-tube) p = pressure drop measurement (piezo-electric) t = temperature measurement (thermocouple) hc= hydrocyclone mv= manual valve... Figure 3 A schematic diagram of the experimental setup d = density measurement (vibrating U-tube) p = pressure drop measurement (piezo-electric) t = temperature measurement (thermocouple) hc= hydrocyclone mv= manual valve...
Figure 7.5 Experimental setup for the overview absorbance measurements with the ARES spectrograph (1) D2 lamp, (2) tungsten halogen lamp, (3) beam combiner, (4) mechanical shutter, (5,9) toroidal mirrors, (6) sample and blank reservoir, (7) magnetic valve, (8) flame atomizer, (10) entrance slit, (11 -14) pre-dispersing illumination optics, (15,18) spherical mirrors, (16) prism, (17) echelle grating, (19) CCD array detector, (20) Ne lamp, (R1-R5) piezo-electrically controlled rotation units... Figure 7.5 Experimental setup for the overview absorbance measurements with the ARES spectrograph (1) D2 lamp, (2) tungsten halogen lamp, (3) beam combiner, (4) mechanical shutter, (5,9) toroidal mirrors, (6) sample and blank reservoir, (7) magnetic valve, (8) flame atomizer, (10) entrance slit, (11 -14) pre-dispersing illumination optics, (15,18) spherical mirrors, (16) prism, (17) echelle grating, (19) CCD array detector, (20) Ne lamp, (R1-R5) piezo-electrically controlled rotation units...
See other pages where Piezo experimental setup is mentioned: [Pg.426]    [Pg.197]    [Pg.158]    [Pg.7]    [Pg.7451]    [Pg.68]   
See also in sourсe #XX -- [ Pg.244 ]



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Experimental setups

Setup

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