Estimation of Humidity Profiles by Combining Co-Located VHF and UHF Wind-Profiling Radar Observation
スポンサーリンク
概要
- 論文の詳細を見る
The turbulence echo intensity observed by a wind-profiling radar is closely related to the vertical gradient of refractive index squared (M^2), which largely depends on the vertical humidity gradient in a moist atmosphere. We have developed a radar remote-sensing technique for determining humidity pro-files by using the turbulence echo characteristics. The sign of M is determined so that the precipitable water vapor determined by the radar agrees with that derived from the GPS measurements. In this study we have combined the results collected with two co-located radars; the MU (Middle and Upper atmosphere) and Lower Troposphere Radar (LTR) operating at 46.5 MHz and 1.3 GHz frequencies, respectively, and humidity profiles determined at 0.3-7.5 km. The echo power profiles (signal-to-noise ratio, SNR) with the two radars are connected smoothly in a height range between 1.5 and 1.95 km, by considering reduction of the receiver sensitivity for the MU radar due to leakage of the transmission signal. The retrieved humidity profiles show detailed time-height variations, which agree well with the simultaneous Raman lidar and radiosonde measurements.
- 社団法人日本気象学会の論文
- 2007-06-25
著者
-
Nakamura Takuji
Research Institute for Sustainable Humanosphere, Kyoto University
-
TSUDA Toshitaka
Research Institute for Sustainable Humanosphere (RISH), Kyoto University
-
FURUMOTO Jun-ichi
Research Institute for Sustainable Humanosphere (RISH), Kyoto University
-
Furumoto Jun-ichi
Research Institute For Sustainable Humanosphere Kyoto University
-
Furumoto Jun-ichi
Research Institute For Sustainable Humanosphere (rish) Kyoto University
-
Nakamura Takuji
Research Institute For Sustainable Humanosphere (rish) Kyoto University
-
Tsuda Toshitaka
Research Institute For Sustainable Humanosphere (rish) Kyoto University
-
Tsuda Toshitaka
Research Institute For Sustainable Humanosphere Kyoto University
-
Nakamura Takuji
Research Institute For Sustainable Humanosphere Kyoto University
-
IMURA Shingo
Research Institute for Sustainable Humanosphere, Kyoto University
-
Imura Shingo
Research Institute For Sustainable Humanosphere Kyoto University
関連論文
- Atmospheric gravity waves identified by ground-based observations of the intensity and rotational temperature of OH airglow
- A Statistical Overview of Convection During the First CPEA Campaign(CPEA-Coupling Processes in the Equatorial Atmosphere)
- Vertical Wave Number Spectrum of Temperature Fluctuations in the Stratosphere using GPS Occultation Data
- Gravity wave momentum flux in the upper mesosphere derived from OH airglow imaging measurements
- A Multi-Instrument Measurement of a Mesospheric Front-Like Structure at the Equator(CPEA-Coupling Processes in the Equatorial Atmosphere)
- Gravity Wave Characteristics over the Equator Observed During the CPEA Campaign using Simultaneous Data from Multiple Stations(CPEA-Coupling Processes in the Equatorial Atmosphere)
- Characteristics of 10-day Kelvin Wave Observed with Radiosondes and CHAMP/GPS Occultation during the CPEA Campaign (April-May, 2004)(CPEA-Coupling Processes in the Equatorial Atmosphere)
- Observations of the 7-day Kelvin Wave in the Tropical Atmosphere During the CPEA Campaign(CPEA-Coupling Processes in the Equatorial Atmosphere)
- Estimation of Humidity Profiles by Combining Co-Located VHF and UHF Wind-Profiling Radar Observation
- Estimation of Humidity Profiles with the L-Band Boundary Layer Radar-RASS Measurements
- Vertical Eddy Diffusivity and Energy Dissipation Rate Observed by the MU Radar-RASS
- MU Radar Observations of Atmospheric Stability by Using Characteristics of Clear Air Echoes
- A Report on Radar Observations of 5-8-day Waves in the Equatorial MLT Region(CPEA-Coupling Processes in the Equatorial Atmosphere)
- Lidar Observations of Sporadic Fe and Na Layers in the Mesopause Region over Equator(CPEA-Coupling Processes in the Equatorial Atmosphere)
- Observations of mesospheric sporadic sodium layers with the MU radar and sodium lidars
- A simulation analysis to optimize orbits for a tropical GPS radio occultation mission
- Temperature and Water Vapor Profiles Derived from Downward-Looking GPS Occultation Data (2.Space-Borne GPS Meteorology and Related Techniques)
- Modulation of Tropopause Temperature Structure Revealed by Simultaneous Radiosonde and CHAMP GPS Measurements
- Daytime tropospheric temperature profiling with rotational Raman lidar
- Characteristics of gravity waves observed with intensive radiosonde campaign during November-December 2005 over western Sumatera
- Equatorial GPS ionospheric scintillations over Kototabang, Indonesia and their relation to atmospheric waves from below
- Temporal and spatial distribution of atmospheric wave energy in the equatorial stratosphere revealed by GPS radio occultation temperature data obtained with the CHAMP satellite during 2001-2006
- C115 A new multi-instrumental campaign at Shigaraki MU Observatory (September 2011) for studying turbulence sources and characteristics in the lower atmosphere
- D370 Longitudinal dependence in the interannual variation of the temperature anomalies
- A simulation analysis to optimize orbits for a tropical GPS radio occultation mission