| Autor: |
Myasnikov, E., Muravjeva, N., Sergeev, E., Frolov, V., Nasyrov, A., Nasyrov, I., Beley, V., Koloskov, A., Yampolsky, Yu., Groves, K. |
| Zdroj: |
Radiophysics & Quantum Electronics; Nov2001, Vol. 44 Issue 11, p833-846, 14p |
| Abstrakt: |
We present measurement results and spatial-spectrum shapes of the dependence of the relaxation time on the scale across the geomagnetic field for artificial ionospheric irregularities (AIIs) induced in the upper ionosphere by powerful HF radiation of the SURA heating facility. The irregularity diagnostics was based on observing amplitude scintillations of a 243-MHz beacon signal from a quasi-geostationary, solar-synchronous satellite and on measuring field-aligned scattering at frequencies 15 and 20 MHz. The satellite signal was received at the Kazan State University Observatory. The field-aligned scattering signals were received and analyzed by a bistatic HF radar based on the UTR-2 radio telescope located near Kharkov (Ukraine). It is shown that irregularities of the electron density, whose two-dimensional spectrum in the plane perpendicular to the geomagnetic field is the power law æ⊥ -p with index p≲2, are developed in the scale range 30–60 ≲ l⊥ ≲ 200–400 m. In this case, the relative fluctuations (〈δN2〉)1/2 of the electron density increase with decreasing scale l⊥=2π/æ⊥. The estimate 〈δ N2〉)1/2 ≲ 1–1.5% is obtained for a heating power of 150 MW and irregularity scales l⊥ ∼ 30–60 m at which the fluctuations are maximum. The measured dependence of the AII relaxation time, defined as the e-folding time of the amplitude-scintillation intensity, has the form τr ∝ l⊥ α. If l⊥ ≲ 30–60 m, then the index α is close to 2, whereas the effective diffusion coefficient D⊥ ≃ (2–3)· 10-1 m2/s corresponds to the ambipolar cross-field diffusion coefficient in a magnetized plasma. The time τr for scales l⊥≳ 60–100 m is independent of l⊥ and increases with decreasing velocity of regular drift of the plasma. The Doppler-spectrum broadening (〈Δν2〉)1/2 ≲ 0.6 Hz observed when receiving field-aligned scattered signals can be related to chaotic motions of plasma-density disturbances whose random drift velocities amount to (〈Δv2〉)1/2 ≃ 2–3 m/s for scales l⊥ ∼ 20 m at which the power-law index changes drastically. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
|
Full text from SpringerLink