SU88487A1 - Prism for spectral analysis - Google Patents

Description

The proposed prism, in contrast to devices of a similar purpose, consists of the usual spectral and diffraction of 1–1 nm, at 1 point 1 point, and the edge of the PRMS.

 the prism design means the divergence of the rays created by the network. ♦ Position the instrument with a sectoral device with a small beam deflection from the initial one at the operating device of the dispenser 1.

FIG. 1 I 2 is shown) On the scheme of the situational setup for the direct analysis.

The diffraction grating / (whether it) is installed behind the collimator lens 2 perpendicular to the optical and the latter:. On the Oh or on a small scale from no other way is an isosceles prism 3.

The beam of rays, coming from the source of light 4, passes through the slit 5n after passing through the gap, and falls on the face of the prism at some angle.

It is possible to choose the lattice constant, the refractive index: the angle of the prism and the refractive index of the glass, in order to satisfy the condition 1 and the deviation of the yellow rays.

For example, for a 60 ° konglaus oris, the grille should have

ABOUT 1000 - -. mm

Ja, after the step through the lens 6 through the lens 6. On the 7th, the first two spectra are shown, arranged in violet

the ends of a friend.

The shortwave spectral regions sometimes come together. In cases, you should use D1 afragmas.

With grill having 590 and 60 ° cronglass

, 5) the arrangement of the spectra shown in fig. 1 only for two orders, and therefore specter is less than 1 Tens1 V 1y. In order to observe the bright spectrum of the first order, it is necessary to turn {FIG. 2). In this case, a spectrum is obtained, somewhat deviating from the collimatop.

The prism increases the rasprodepe rays generated by the lattice. If the length of the spectrum from the prism is denoted by 1, separately from the lattice - / 3, and from the iris and lattice (in the same order): - / 3, then the ratio / i will be obtained; / 2: / c 1 - b: 12.

In this case, the spectrum is by the nature of the interstitial normal spectrum of the lattice and the prism sector, and closer to the first than to the last. It is easy to understand such a mutual arrangement of the lattice and prisms, so that in the field of view one can observe simultaneously all three spectra, which is very convenient for lecture demonstrations or in those cases when it is desirable to obtain simultaneously spectrograms with large and small dispersion.

The diffraction grating can also be applied directly to the prism face. In this case, the system is installed — either perpendiculum p} 1o the axis of the collimator, or at some angle to the original beam.

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Claims (2)

1. The prism for spectral analysis is different in that, in order to increase the divergence of the rays, it is made in the form of a conventional spectral prism and installed in front of it a diffraction grating. 2. The shape of the prism according to claim 1, is different from the one that the diffraction grating is deposited on the face of the prism.