TY - Generic T1 - The W2NAF-KC3EEY VLF Observatory: Building Exciting New Developments from a Solid Foundation T2 - HamSCI Workshop 2024 Y1 - 2024 A1 - Jonathan D. Rizzo A1 - Nathaniel A. Frissell AB -

After more than two years, the VLF reception system installed at the W2NAF-KC3EEY VLF Observatory in Spring Brook Township, PA has proven an essential tool in ionospheric and magnetospheric research. Using low cost and simplistic hardware like a VLF Active Antenna, Raspberry Pi, soundcard, and GNSS receiver along with powerful, open-source software such as vlfrx-tools and GPS Daemon, it is possible to capture VLF spectrum data with science-grade accuracy, precision, and reliability that an amateur can easily achieve. Building on this foundation, new developments were made possible which include a 3-channel VLF reception system of the same hardware and software architecture; an H-field VLF receiver that will be used alongside the Active VLF Antenna as well as the newly developed 3-channel VLF reception system to enable triple axis reception, an amateur VLF transmission rig utilizing a GPS-locked carrier and the EbNaut digital mode, a possible atmospheric gravity wave detection from the Tonga eruption, an exciting 2023 annular eclipse observation indicating both influence from the Moon's shadow and a solar flare using Naval VLF transmitters and lightning sferics, and an analysis of the observed dusk and dawn phenomena on Naval VLF signals, along with other developments. These developments coincide with a call to establish the HamSCI VLF Network, a network of worldwide VLF reception systems installed and operated by volunteers, amateurs, and professionals alike in radio-quiet locations. The HamSCI VLF Network will augment the existing HamSCI Grape experiment with D/E-layer ionospheric phenomena, lightning location data with accurate stroke solutions, and more.  

JF - HamSCI Workshop 2024 PB - HamSCI CY - Cleveland, OH ER - TY - JOUR T1 - Amateur Radio: An Integral Tool for Atmospheric, Ionospheric, and Space Physics Research and Operations JF - White Paper Submitted to the National Academy of Sciences Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 Y1 - 2022 A1 - Nathaniel A. Frissell A1 - Laura Brandt A1 - Stephen A. Cerwin A1 - Kristina V. Collins A1 - David Kazdan A1 - John Gibbons A1 - William D. Engelke A1 - Rachel M. Frissell A1 - Robert B. Gerzoff A1 - Stephen R. Kaeppler A1 - Vincent Ledvina A1 - William Liles A1 - Michael Lombardi A1 - Elizabeth MacDonald A1 - Francesca Di Mare A1 - Ethan S. Miller A1 - Gareth W. Perry A1 - Jonathan D. Rizzo A1 - Diego F. Sanchez A1 - H. Lawrence Serra A1 - H. Ward Silver A1 - David R. Themens A1 - Mary Lou West ER - TY - JOUR T1 - Fostering Collaborations with the Amateur Radio Community JF - White Paper Submitted to the National Academy of Sciences Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033 Y1 - 2022 A1 - Nathaniel A. Frissell A1 - Laura Brandt A1 - Stephen A. Cerwin A1 - Kristina V. Collins A1 - Timothy J. Duffy A1 - David Kazdan A1 - John Gibbons A1 - William D. Engelke A1 - Rachel M. Frissell A1 - Robert B. Gerzoff A1 - Stephen R. Kaeppler A1 - Vincent Ledvina A1 - William Liles A1 - Elizabeth MacDonald A1 - Gareth W. Perry A1 - Jonathan D. Rizzo A1 - Diego F. Sanchez A1 - H. Lawrence Serra A1 - H. Ward Silver A1 - Tamitha Mulligan Skov A1 - Mary Lou West ER - TY - CONF T1 - HamSCI Personal Space Weather: Architecture and Applications to Radio Astronomy T2 - Annual (Summer) Eastern Conference Y1 - 2021 A1 - Nathaniel A. Frissell A1 - Scott H. Cowling A1 - Thomas C. McDermott A1 - John Ackermann A1 - David Typinski A1 - William D. Engelke A1 - David R. Larsen A1 - David G. McGaw A1 - Hyomin Kim A1 - David M. Witten, II A1 - Julius M. Madey A1 - Kristina V. Collins A1 - John C. Gibbons A1 - David Kazdan A1 - Aidan Montare A1 - Dev Raj Joshi A1 - Veronica I. Romanek A1 - Cuong D. Nguyen A1 - Stephen A. Cerwin A1 - William Liles A1 - Jonathan D. Rizzo A1 - Ethan S. Miller A1 - Juha Vierinen A1 - Philip J. Erickson A1 - Mary Lou West AB -

The Ham Radio Science Citizen Investigation (HamSCI) Personal Space Weather Station (PSWS) project is a citizen science initiative to develop a new modular set of ground-based instrumentation for the purpose of studying the structure and dynamics of the terrestrial ionosphere, as well as the larger, coupled geospace system. PSWS system instrumentation includes radio receivers sensitive to frequencies ranging from the very low frequency (VLF) through very high frequency (VHF) bands, a Global Navigation Satellite System (GNSS) receiver to provide Total Electron Content (TEC) measurements and serve as a precision time and frequency reference, and a ground magnetometer sensitive to ionospheric and geospace currents. Although the PSWS is designed primarily for space weather and space science, its modular and open design in both hardware and software allows for a variety of use cases. The core radio instrument of the PSWS, the TangerineSDR, is a wideband, direct sampling 100~kHz to 60~MHz field programmable gate array (FPGA)-based software defined radio (SDR) receiver with direct applicability to radio astronomy. In this paper, we describe the PSWS and TangerineSDR architecture, show examples of how the TangerineSDR could be used to observe Jovian decametric emission, and discuss the applicability of the TangerineSDR to radio astronomy in general.

JF - Annual (Summer) Eastern Conference PB - Society of Amateur Radio Astronomers (SARA) CY - Virtual UR - https://rasdr.org/store/books/books/journals/proceedings-of-annual-conference ER -