N. G. Peterova scite author profile

N. G. Peterova

5Publications

50Citation Statements Received

59Citation Statements Given

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Affiliations

Special Astrophysical Observatory, Russian Academy of Sciences, Pulkovo Observatory

Publications

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Measurements of magnetic fields in solar corona as based on the radio observations of the inversion of polarization of local sources at microwaves

Gelfreikh

Peterova

Ryabov³

1987

Sol Phys

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The possibility of measuring magnetic fields of solar active regions at coronal heights up to 10 TM cm by observing the inversion of circular polarization of local sources at microwaves is demonstrated. The observations by the radiotelescope RATAN-600 were accomplished with the angular resolution 17"-34" in the wavelength range 2-4 cm. It is found that the inversion of polarization occured within a core of local source situated above the largest sunspot of Mc Math 14822. The inversion was followed during the period of June 30-July 3, 1977. The measured coronal magnetic field of ~ 16 G is found to be at the height 12 • 109 cm. This measured field proves to agree with a simulated potential structure of Mc Math 14822 coronal magnetic field. Our analysis of the inversion has been based on the theory of interaction (coupling) of the ordinary and extraordinary wave modes in the region of quasi-transverse propagation.

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Modeling of the Sunspot-Associated Microwave Emission Using a New Method of DEM Inversion

et al. 2019

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We developed a method to compute the temperature and density structure along the line of sight by inversion of the differential emission measure (DEM), under the assumptions of stratification and hydrostatic equilibrium. We applied this method to the DEM obtained from AIA observations and used the results, together with potential extrapolations of the photosheric magnetic field, to compute the microwave emission of three sunspots, which we compared with observations from the RATAN-600 radio telescope and the Nobeyama Radioheliograph (NoRH). Our DEM based models reproduced very well the observations of the moderate-size spot on October 2011 and within 25% the data of a similar sized spot on March 2016, but predicted too low values for the big spot of April 14, 2016. The latter was better fitted by a constant conductive flux atmospheric model which, however, could not reproduce the peak brightness temperature of 4.7 × 10 6 K and the shape of the source at the NoRH frequency. We propose that these deviations could be due to low intensity non-thermal emission associated to a moving pore and to an opposite polarity light bridge. We also found that the double structure of the big spot at high RATAN-600 frequencies could be interpreted in terms of the variation of the angle between the magnetic field and the line of sight along the sunspot.

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Transition region above sunspots inferred from microwave observations

2010

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The microwave radiation of the corona above a large single sunspot in right- and left-circular polarization

2010

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Sharp Changes in the Ordinary Mode Microwave Emission from a Stable Sunspot: Model Analysis

Bezrukov¹,

Ryabov²,

Peterova³

et al. 2011

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N. G. Peterova

Measurements of magnetic fields in solar corona as based on the radio observations of the inversion of polarization of local sources at microwaves

Modeling of the Sunspot-Associated Microwave Emission Using a New Method of DEM Inversion

Transition region above sunspots inferred from microwave observations

The microwave radiation of the corona above a large single sunspot in right- and left-circular polarization

Sharp Changes in the Ordinary Mode Microwave Emission from a Stable Sunspot: Model Analysis

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