Center-to-limb variations in the two-dimensional contrast of photospheric faculae

Using photoelectric observations in the Fe 5576/~ line we obtained line-of-sight velocities at nine different positions on the solar disk, as functions of one horizontal co-ordinate and time. With the help of the Fast Fourier Transform algorithm we calculated two-dimensional power spectra (horizonta

We study the center-limb (CL) variation of the average profiles of four Cal lines near 26500 and compare these observations with synthetic data obtained from several line formation models having different thermal structures, line parameters, LTE and non-LTE conditions, and micro and macroturbulence

The center-to-limb variation of the root-mean-square granular contrast at 5520,~ is deduced from a set of high-spatial-resolution filtergrams obtained with the Sacramento Peak Observatory Vacuum Tower Telescope. The rms contrast is observed to decrease monotonically between 1.0 and 0.6, and then inc

From high-quality direct frames taken by the Soviet Stratospheric Solar Observatory, using coherent optical methods, the two-dimensional spatial spectrum of the photospheric brightness field was obtained (Figure 1). This spectrum is isotropic and continuous. Spectral densities if(k) and where k is

Brightness fluctuations at 1.65/x have been recorded by means of a 64-element array. Infrared photographs clearly show sunspots and granulation with a resolution better than 1". Quantitative analysis of the digitized data is used to compute autocorrelation and power spectrum. Half-width of autocorre