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nyrad35

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NYRAD35 35 GHz cloud rada

Mentor: M. Mech, Data: K. Ebell

NYRAD35 (RPG) on the roof of the AWIPEV atmospheric observatory.

Principle

NYRAD35 is a dual-polarization simultaneous transmission and simultaneous reception (STSR; also referred to as hybrid-mode, or STAR, simultaneous transmission and reception) radar, with elevation-scanning capabilities. The scanner can perform full 180° scans in elevation and is operated at a constant azimuth of approximately 27°, i.e., along the north-north-east to south-south-west direction. STSR radars receive at horizontal and vertical polarization but transmit a signal that is linearly polarized along the 45° direction between vertical and horizontal directions. This allows both for linear depolarization ratio (LDR) observations in zenith and typical dual-polarization variable observations at low elevations, such as differential reflectivity (ZDR) or specific differential phase (KDP). Matching Ka- and W-band observations in zenith allows for the calculation of the DWR, in order to obtain information on the characteristics size of the ice particle population.

Data

  • If you are interested in receiving data please contact: Kerstin Ebell

Deployment

Period Place Project
23/01/2025 - today AWIPEV at Ny-Ålesund, Norway (AC)3
01/10/2021 - 06/03/2024 AWIPEV at Ny-Ålesund, Norway (AC)3

Specifications

Parameter Specification Remark
Frequency 35 GHz corresponds to wavelength of 8.6 mm; bandwidth up to ± 100 MHz
IF Range 0.3 to 3.7 MHz
Transmitter Power 15 W solid state amplifier
Antenna gain 48.0 dB
Beam Width 0.8° FWHM
Polarisation Dual-polarization (STSR) received V/H polarised radiation, emits 45° linearly polarized (between vertical and horizontal directions) radiation, i.e., simultaneous transmission simultaneous reception (STSR) radar
Dynamic Range -43 dBZe to +30 dBZ valid for 5 km distance, 30 m resolution, and 10 s sampling time
Ranging 50 m to 12 km maximum 18 km
Calibration Transmitter power monitoring, Receiver Dicke switch (for radar and passive channel), Hot/Cold absolute receiver calibration Accuracy ±1 dB
A/D Sampling Rate 11.45 MHz
Profile Sampling Rate ≥1 s adjustable
Vertical Resolution 4 m to 30 m 4 m in a limited distance range
Doppler Resolution ± 4 cm/s or better
Doppler Range ± 10 m/s max.
Chirp Variations 3 typical 5 possible, re-programmable
Passive Channels 31.4 GHz for integral liquid water (LWP) detection (200 MHz BW)
Passive Channel Noise Figure 3.7 dB
Data Products Raw spectra, Spectral polarimetric parameters, Reflectivity, Mean Doppler velocity, Doppler width, Skewness, Kurtosis, Differential reflectivity, Differential phase shift, Correlation coefficient
Data Formats proprietary binary, netCDF (conformity with CF convention)
Rain/Snow/Dew Mitigation System Strong dew blower (4000 m3/h ), radomes with hydrophobic coating
Weight Radar main body: 160 kg, Table: 35 kg, Blower: 109 kg
Maximum Power Consumption Radar: max. 1100 W, Blower: 850 W, Scanner: 800 W, 230 V AC, 50-60 Hz
Manufacturer RPG

References

Chellini, G., R. Gierens, K. Ebell, T. Kiszler, P. Krobot, A. Myagkov, V. Schemann, and S. Kneifel, 2023: Low-level mixed-phase clouds at the high Arctic site of Ny-Ålesund: A comprehensive long-term dataset of remote sensing observations, Earth Syst. Sci. Data, 15, 5427–5448, https://doi.org/10.5194/essd-15-5427-2023

Chellini, G., R. Gierens, and S. Kneifel, 2022: Ice aggregation in low-level mixed-phase clouds at a high Arctic site: Enhanced by dendritic growth and absent close to the melting level. Journal of Geophysical Research: Atmospheres, 127, e2022JD036860. https://doi.org/10.1029/2022JD036860

nyrad35.1780306006.txt.gz · Last modified: 2026/06/01 09:26 by kerstin