M. F. Larsen scite author profile

The all sky surveys done by the Palomar Observatory Schmidt, the European Southern Observatory Schmidt, and the United Kingdom Schmidt, the InfraRed Astronomical Satellite, and the Two Micron All Sky Survey have proven to be extremely useful tools for astronomy with value that lasts for decades. The Wide-field Infrared Survey Explorer (WISE) is mapping the whole sky following its launch on 2009 December 14. WISE began surveying the sky on 2010 January 14 and completed its first full coverage of the sky on July 17. The survey will continue to cover the sky a second time until the cryogen is exhausted (anticipated in 2010 November). WISE is achieving 5σ point source sensitivities better than 0.08, 0.11, 1, and 6 mJy in unconfused regions on the ecliptic in bands centered at wavelengths of 3.4, 4.6, 12, and 22 μm. Sensitivity improves toward the ecliptic poles due to denser coverage and lower zodiacal background. The angular resolution is 6. 1, 6. 4, 6. 5, and 12. 0 at 3.4, 4.6, 12, and 22 μm, and the astrometric precision for high signal-to-noise sources is better than 0. 15.

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The prereversal enhancement of the zonal electric field in the equatorial ionosphere

Farley¹,

Bonelli²,

Fejer³

et al. 1986

J. Geophys. Res.

363

342

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The electric fields in the ionospheric E and F regions near the magnetic equator often show a strong eastward enhancement shortly after sunset and before the eastward (normally) daytime field reverses to westward. Several theoretical models of the low-latitude fields suggest that this enhancement is caused mainly or entirely by F region winds (the F region dynamo), but some authors have suggested that it could be produced solely by E region tidal winds. We give here additional calculations and arguments in support of the F region source. The enhancement of the eastward field for an eastward F region wind tums out to be a simple direct consequence of the fact that after sunset the ionospheric conductivity decreases far more rapidly in the E region than in the F region. 13,72313,724 FARLEY ET AL.' BRIEF REPORT

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Gravity wave initiation of equatorial spread F: A case study

Kelley¹,

Larsen²,

LaHoz³

et al. 1981

J. Geophys. Res.

348

278

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Equatorial disturbance dynamo electric fields

Fejer¹,

Larsen²,

Farley³

1983

Geophysical Research Letters

160

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F‐region vertical drift data from Jicamarca, Peru show that equatorial east‐west electric fields are sometimes perturbed 16‐24 hours after the onset of geomagnetic storms. These disturbance dynamo electric fields, which must be caused primarily by the action of neutral winds at low and middle latitudes, decrease and sometimes even reverse the quiet time electric field pattern during both daytime and nighttime. The long delay excludes the possibility that gravity waves are responsible and suggests that the thermospheric circulation is disturbed. The data also show that after some storms there are no such delayed disturbances, a fact which may be due to the longitudinal structure of the disturbances at high latitudes and/or that only very strong storms can produce major thermospheric perturbations that extend to middle and low latitudes.

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Gravity‐wave generation by thunderstorms observed with a vertically‐pointing 430 MHz radar

Larsen¹,

Swartz²,

Woodman³

1982

Geophysical Research Letters

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During September of 1979, the Arecibo Observatory 430 MHz Doppler radar was used to study the upper troposphere and lower stratosphere during thunderstorm activity in the afternoon hours. It was found that when the clouds developed sufficiently in the vertical direction to reach the height of the tropopause, gravity‐wave oscillations in the vertical velocity above the tropopause would develop. The amplitude was 2 m/s, and the period was close to 6 min.

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M. F. Larsen

The Wide-Field Infrared Survey Explorer (Wise): Mission Description and Initial on-Orbit Performance

The prereversal enhancement of the zonal electric field in the equatorial ionosphere

Gravity wave initiation of equatorial spread F: A case study

Equatorial disturbance dynamo electric fields

Gravity‐wave generation by thunderstorms observed with a vertically‐pointing 430 MHz radar

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