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220 nm(passive) was setThe wavelength
flexibly(passive) can be set14.The wavelength
at 280 nm ( CAP ) and 340 nm ( NOVO(passive) were setThe wavelength
the apparent motion of a source in the instrument(passive) caused bywavelength
a laser diodecreateswavelength
the laser medium(passive) set bythe wavelength
a fiber laser(passive) created byThe wavelength
a temperature change of light emitted from a semiconductor laser source(passive) caused bywavelength
the wavelength of a laser ... can not be usedto initially setthe wavelength
the motion of the source ( in this case , raindrops(passive) caused bywavelength
at 280 nm for phenolic acids , phenyl ethyl alcohols and secoiridoids(passive) was setThe wavelength
a UV detectorsetat wavelength
to be λ=600 nm(passive) is setThe wavelength
change of temperature or the like(passive) caused bya wavelength
operating parameterinfluencinga wavelength
to suit you , along with the energy level and the time you are exposed to the laser(passive) can be setThe wavelength
using the rotary control and the instrum(passive) is conveniently setWavelength
to 740 nm and laser power(passive) was setWavelength
to 920 nm and laser power(passive) was setThe wavelength
laser sub - mount temperature(passive) set byDWDM wavelength
The well controlled change of the laser ’sleadswavelength
by combining the spectral sensitivity of the photoelectric conversion element and the spectral transmittance of the color filter(passive) may also be setThe wavelength
the motion of an object towards the observer(passive) caused bywavelength
The transmission filtersetsthe wavelength
filter 440(passive) set bythe wavelength
a 500V signal in one embodiment of the laser of FIG(passive) caused bywavelength
4.Autosettingwavelength
Auto wavelengthsetwavelength
the relative motion between the wave source and an observer(passive) caused bywavelength
e.g. , Molecular Devices Emax precision microplate readersetat wavelength
at 457.9 nm ( Ar+ laser(passive) was setThe wavelength
the change in the drive current of the semiconductor laser(passive) caused bythe wavelength
The laser uses a dynamic holographic grating mirrorto setthe wavelength
at 555 nm and(passive) was setThe wavelength
variation of temperature of the light emitting chip 4(passive) caused bywavelength
generally(passive) is designedwavelength
at 225 nm(passive) was setThe wavelength
at 266 nm(passive) was setThe wavelength
to 1560 nm(passive) was setWavelength & lgr
430 nm(passive) were setwavelength
at 450 nm and a correction wavelength at 540 nmsetat 450 nm and a correction wavelength at 540 nm
to 400 nm and 600 nmis setto 400 nm and 600 nm
parameters of the local oscillation light source 107settingparameters of the local oscillation light source 107
in the wavelength setting section 40has been setin the wavelength setting section 40
at 254 nm ( filter no .setat 254 nm ( filter no .
at 220 and 254 nmsetat 220 and 254 nm
at 254 nm , or equivalentsetat 254 nm , or equivalent
Color objects given the wavelength or the frequency of the light rather than the usual RGB or HSBcreatesColor objects given the wavelength or the frequency of the light rather than the usual RGB or HSB
Color objects given the wavelength orthe frequency of the light rather than the usual RGB or HSBcreatesColor objects given the wavelength orthe frequency of the light rather than the usual RGB or HSB
diffraction angle(passive) caused bydiffraction angle
from measurement of photoluminescence in the solid state of aluminum(picolymethylketone)bis[2,6-di(t - bu)phenoxideresultingfrom measurement of photoluminescence in the solid state of aluminum(picolymethylketone)bis[2,6-di(t - bu)phenoxide
The frequency of the fading(passive) is influenced byThe frequency of the fading
from a circuit patternresultingfrom a circuit pattern
information g in a wavelength memory ( 26settinginformation g in a wavelength memory ( 26
the way with delivering change for lonely and isolated people through the use of media technologyhas ledthe way with delivering change for lonely and isolated people through the use of media technology
the way delivering change for lonely and isolated people through the use of digital technologyhas ledthe way delivering change for lonely and isolated people through the use of digital technology
at 492 nmsetat 492 nm
at 490 nmsetat 490 nm
from the rotational error of the prism and ΔλTresultingfrom the rotational error of the prism and ΔλT
from the variation of refractive index of the prism due to the variation of temperature and a deviation of wavelength resulting from the rotational error of the prismresultingfrom the variation of refractive index of the prism due to the variation of temperature and a deviation of wavelength resulting from the rotational error of the prism
at 595 nmsetat 595 nm
the depth of penetrationinfluencesthe depth of penetration
at excitation 340 nm for Tbsetat excitation 340 nm for Tb
from the variation of refraction index of the prism due to the variation of temperatureresultingfrom the variation of refraction index of the prism due to the variation of temperature
to a higher frequency ( f = c / λleadingto a higher frequency ( f = c / λ
parameters of the local oscillation light source according to this parameter control sequencesettingparameters of the local oscillation light source according to this parameter control sequence
only to the signal at frequency ωcontributesonly to the signal at frequency ω
from 200 up to 600 nm in increments of 1 nm Scan of the whole spectrumsettingfrom 200 up to 600 nm in increments of 1 nm Scan of the whole spectrum
how a wave interacts with matterhowcan greatly influencehow a wave interacts with matterhow
when a given source of waves ( e.g. , light or radio waves ) and an observer are in rapid motion with respect to each otherresultswhen a given source of waves ( e.g. , light or radio waves ) and an observer are in rapid motion with respect to each other
A UV detector(passive) was setA UV detector
for UV - VIS detectorsettingfor UV - VIS detector
one capsule collection per yearcreatesone capsule collection per year
Color objects given the light wavelength or the frequency Download Freeware ( 0.80 MBcreatesColor objects given the light wavelength or the frequency Download Freeware ( 0.80 MB
from the determined viewing angleresultingfrom the determined viewing angle
from 190 up to 840 nm in increments of 1 nmsettingfrom 190 up to 840 nm in increments of 1 nm
to 340 nm for the citric acid cyclesetto 340 nm for the citric acid cycle
to be 1.06μmis setto be 1.06μm
to 1 . 4is setto 1 . 4
in advance in the 1.55μm band as the reference is setis setin advance in the 1.55μm band as the reference is set