Документ взят из кэша поисковой машины. Адрес оригинального документа : http://jet.sao.ru/hq/lrs/res22a.html
Дата изменения: Unknown
Дата индексирования: Sun Apr 10 00:31:28 2016
Кодировка:

Поисковые слова: rings
Results scientific researchs 22
The spatial power spectra of Galactic
neutral hydrogen at high galactic latitudes
(1999)

Neutral hydrogen is an important constituent of the interstellar medium, and has been widely studied at 21 cm line emission. Within the Galactic plane, structure of HI emission is seen over wide range of angular scales, down to tens of milliarc seconds.
In the most cases distinct "clouds" of HI are found to be associated with filaments, shells or sheets of gas.
In the high galactic latitudes an alternative approach is seen more reasonable - to describe HI emission in terms of an angular power spectrum over a range of scales.
A power spectrum analysis was made of RATAN-600 HI observations in the region of 10h < R.A.< 16h and Delta = +5.0 degree, +16.0 dg, +27.5 dg and +39.0 dg, that is 45 dg < b < 90 dg. The angular resolution of this Survey is 2.4'x 130', velocity resolution is 6.3 km/s, r.m.s. fluctuations of antenna temperature is 0.1 K.

Velocity profiles of the HI emission in the whole of this region may be clearly divided into two parts: rather narrow picks near zero velocity and the very broad emission which is obviously arised from far (mainly - back) sidelobes of our antenna. It was shown that only narrow emission has fine angular structure and therefore came from main beam of antenna.

Angular power spectrum was computed in each velocity channel with standard FFT code and smoothed over 5 velocity channels (22 km/s) and 1h (15 dg) along R.A. Before FFT computation a linear trend was removed and data were multiplied by cos-window. The power spectra of system noise were determined on the spectral channels where the line signals were absent and subtracted from measured spectra on the line channels.

After that the obtained spatial spectra were corrected for two-dimensional antenna beam and output RC-filters smoothings. The used range of angular scales was chosen from 6' to 192' in one dimension (R.A.).
Measured HI column densities are represented on the Figure 1 as a function of sin b, that is inversely proportional to the length of line of sight for the plain layer of galactic gas. Straight line on the figure represents the linear regression of the whole data except for declination of +39 dg.



Figure 1. HI column density in the region surveyed at V near zero.

It is seen that for these cross-sections the correlation is rather good (coefficient of correlation is 0.95) and this means that the gas layer is really flat. There is a region with extreme law HI contents namely 11h < R.A.< 12h30m and +27 dg< delta < +39 dg where we can't measure the spatial spectra.
R.m.s fluctuation of HI line intensities filtered in the range of angular periods from 6' to 48' after subtraction of system noise are presented on Figure 2. It seems that r.m.s. became higher at high galactic latitude may be due to lower quantity of clouds.



Figure 2. HI r.m.s. fluctuation at angular periods from 6' to 48'.

Finally, the indexes of HI spatial power spectra are presented on the Figure 3. It is seen that there is clear dependence the values of indexes from R.A. providing more flat spectra at more high latitude. Commonly used values near -3 is seen only at rather law latitudes. Implication of these results to the properties of interstellar matter will be done in the next time.



Figure 3. The indexes of HI spatial power spectra at periods from 6' to 192'.