Rose S Stanley
YOU?
Author Swipe
View article: Initial performance of the Radar Echo Telescope for Cosmic Rays, RET-CR
Initial performance of the Radar Echo Telescope for Cosmic Rays, RET-CR Open
The Radar Echo Telescope for Cosmic Rays (RET-CR), a pathfinder instrument for the radar echo method of ultrahigh energy (UHE) neutrino detection, was initially deployed near Summit Station, Greenland, in May 2023. After a 4 week commissio…
View article: Macroscopic approach to the radar echo scatter from high-energy particle cascades
Macroscopic approach to the radar echo scatter from high-energy particle cascades Open
To probe the cosmic particle flux at the highest energies, large volumes of dense material like ice have to be monitored. This can be achieved by exploiting the radio signal. In this work, we provide a macroscopic model to predict the rada…
View article: Macroscopic approach to the radar echo scatter from high-energy particle cascades
Macroscopic approach to the radar echo scatter from high-energy particle cascades Open
To probe the cosmic particle flux at the highest energies, large volumes of dense material like ice have to be monitored. This can be achieved by exploiting the radio signal. In this work, we provide a macroscopic model to predict the rada…
View article: The cross-calibration array: a technique to cross-calibrate the energy scales of cosmic-ray experiments using a portable radio array
The cross-calibration array: a technique to cross-calibrate the energy scales of cosmic-ray experiments using a portable radio array Open
The sources of the highest energy cosmic-rays are still a mystery. One way to try to understand these sources is to measure the energies and composition of cosmic rays and build models that describe their energy spectrum. However, at the h…
View article: Updated studies of radio propagation through polar firn using paraPropPython
Updated studies of radio propagation through polar firn using paraPropPython Open
Ultra high energy neutrinos can be detected by measurement of radio emission, produced either\nfrom Askaryan emission, or via reflection of an in-ice radar transmission off the neutrino’s\nionization trail. Accurate reconstruction of the p…
View article: The Radar Echo Telescope for Cosmic Rays
The Radar Echo Telescope for Cosmic Rays Open
The Radar Echo Telescope for Cosmic Rays (RET-CR) was deployed in May 2023. RET-CR aims to show the in-nature viability of the radar echo method to probe in-ice particle cascades induced by ultra high energy cosmic rays and neutrinos. The …
View article: MARES: A macroscopic model for the Radar Echo Telescope Contribution to ICRC 2023
MARES: A macroscopic model for the Radar Echo Telescope Contribution to ICRC 2023 Open
Upon interaction in a dense medium like polar ice, a high-energy neutrino will deposit its energy abruptly, producing a short-lived electron plasma. The Radar Echo Telescope (RET) collaboration aims to utilize the radar technique to probe …
View article: A macroscopic model of radar detection for the Radar Echo Telescope
A macroscopic model of radar detection for the Radar Echo Telescope Open
We introduce a new macroscopic model to simulate in-ice radar detection of high-energy particle\ncascades in dense media. High energy cosmic ray showers impacting a high altitude ice sheet, or\ncosmic neutrinos interacting in the ice produ…
View article: From signal properties toward reconstruction for the Radar Echo Telescope for neutrinos
From signal properties toward reconstruction for the Radar Echo Telescope for neutrinos Open
High energy cosmic neutrinos interacting in ice will induce a particle cascade. The Radar Echo Telescope (RET) aims to detect the neutrino through probing the cascade by means of the radar echo method. In order to study this process, we si…
View article: The Radar Echo Telescope: Detection of Ultra High Energy Neutrinos and Cosmic Rays Using the Radar Echo Technique
The Radar Echo Telescope: Detection of Ultra High Energy Neutrinos and Cosmic Rays Using the Radar Echo Technique Open
The SLAC T-576 beam test has shown the radar echo detection method as a feasible technique to probe high-energy-particle-initiated cascades in dense media, such as ice. Furthermore, particle-level simulations show that the radar echo metho…
View article: The Radar Echo Telescope for Cosmic Rays: Pathfinder experiment for a next-generation neutrino observatory
The Radar Echo Telescope for Cosmic Rays: Pathfinder experiment for a next-generation neutrino observatory Open
The Radar Echo Telescope for Cosmic Rays (RET-CR) is a recently initiated experiment designed to detect the englacial cascade of a cosmic-ray initiated air shower via in-ice radar, toward the goal of a full-scale, next-generation experimen…
View article: The Radar Echo Telescope for Neutrinos (RET-N)
The Radar Echo Telescope for Neutrinos (RET-N) Open
We present the Radar Echo Telescope for Neutrinos (RET-N). RET-N focuses on the detection of the cosmic neutrino flux above PeV energies by means of the radar detection technique. This method aims to bridge the energy gap between the diffu…
View article: Toward High Energy Neutrino Detection with the Radar Echo Telescope for Cosmic Rays (RET-CR)
Toward High Energy Neutrino Detection with the Radar Echo Telescope for Cosmic Rays (RET-CR) Open
The Radar Echo Telescope for Cosmic Rays (RET-CR) is a pathfinder experiment for the Radar Echo Telescope for Neutrinos (RET-N), a next-generation in-ice detection experiment for ultra high energy neutrinos. RET-CR will serve as the testbe…
View article: Cross-calibrating the energy scales of cosmic-ray experiments using a portable radio array
Cross-calibrating the energy scales of cosmic-ray experiments using a portable radio array Open
\n Contains fulltext :\n 236312.pdf (Publisher’s version ) (Open Access)\n
View article: Investigating signal properties of UHE particles using in-ice radar for the RET experiment
Investigating signal properties of UHE particles using in-ice radar for the RET experiment Open
The Radar Echo Telescope (RET) experiment plans to use the radar technique to detect Ultra-High Energy (UHE) cosmic rays and neutrinos in the polar ice sheets. Whenever an UHE particle collides with an ice molecule, it produces a shower of…
View article: Application of parabolic equation methods to in-ice radiowave propagation for ultra high energy neutrino detection experiments
Application of parabolic equation methods to in-ice radiowave propagation for ultra high energy neutrino detection experiments Open
Many ultra-high-energy neutrino-detection experiments seek radio wave signals from neutrino interactions deep within the polar ice, and an understanding of in-ice radio wave propagation is therefore of critical importance. The parabolic eq…
View article: Simulation and Optimisation for the Radar Echo Telescope for Cosmic Rays
Simulation and Optimisation for the Radar Echo Telescope for Cosmic Rays Open
The SLAC T-576 beam test experiment showed the feasibility of the radar detection technique to probe high-energy particle cascades in dense media. Corresponding particle-level simulations indicate that the radar method has very promising s…
View article: Modeling in-ice radio propagation with parabolic equation methods
Modeling in-ice radio propagation with parabolic equation methods Open
We investigate the use of parabolic equation (PE) methods for solving\nradio-wave propagation in polar ice. PE methods provide an approximate solution\nto Maxwell's equations, in contrast to full-field solutions such as\nfinite-difference-…
View article: The Radar Echo Telescope for Cosmic Rays: Pathfinder Experiment for a\n Next-Generation Neutrino Observatory
The Radar Echo Telescope for Cosmic Rays: Pathfinder Experiment for a\n Next-Generation Neutrino Observatory Open
The Radar Echo Telescope for Cosmic Rays (RET-CR) is a recently initiated\nexperiment designed to detect the englacial cascade of a cosmic-ray initiated\nair shower via in-ice radar, toward the goal of a full-scale, next-generation\nexperi…