Probing the Firn Refractive Index Profile Using Antenna Response
Abstract
The Radio Neutrino Observatory-Greenland (RNO-G, at Summit Station) experiment comprises an extensive fat-dipole antenna array deployed into ice boreholes over an eventual area of approximately 35 km2. Since the RNO-G experimental sensitivity depends on the radio-frequency properties of the firn, which are known to vary laterally on sub-km distance scales and vertically on sub-meter distance scales, a technique for quickly extracting information on firn ice properties with depth (n(z)) during drilling and deployment is desirable. Given that a dipole's resonant wavelength is fixed by geometry, the resonant frequency fres (measured as an S-parameter reflection coefficient [`S11'] minimum) scales inversely with the local refractive index, allowing a translation of a depth-dependent S11(z) profile into n(z). S11(z) data were initially taken in August, 2024 using a dipole lowered into a newly-drilled 98 1-mm diameter, 350-m deep borehole at Summit Station, Greenland, approximately 1 km from the site of the original GISP-2 core; improved measurements were subsequently made in May, 2025. We conclude that S11(z) data can be used to estimate , on 50 cm vertical scales, at the per-cent level of accuracy required by experiments such as RN0-G.
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