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Talk • August 6th, 2023
The next-generation Very Large Array Science Advisory Council (SAC) is organizing a cycle of weekly short online talks over the Summer that focus on timely open science questions. Talks are scheduled to be 20-25 min, with another 15-20 min reserved for questions from the audience. The goal of the series is to draw a contingent of ...
Conference • June 23rd, 2021
Now, at the dawn of the multi-messenger era, electromagnetic waves, high-energy particles, and gravitational waves are jointly revealing previously-hidden clues into the workings of compact objects. These clues are guiding observers, theorists, and computational researchers to new and deep insights about compact objects. Stunning progress has ...
News • February 3rd, 2023
On February 3, the ngVLA Project will make a presentation to the Astro2023 Panel on Radio, Millimeter and Submillimeter Observations from the Ground. This presentation will occur during a session open to the public. We encourage ngVLA enthusiasts to attend this presentation either in person or online.
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News • August 6th, 2023
The ngVLA Reference Design is a low-technical-risk, costed concept that supports the key science goals for the facility, and forms the technical and cost basis of the ngVLA Astro2023 Decadal Survey proposal. The compendium includes a total of 56 technical documents and represents the work of more than 54 engineers and scientists contributing to ...
News • June 26th, 2023
The ngVLA and SKA projects are currently investigating a process to establish a scientific alliance that may result in an exchange of observing time across an unprecedented suite of cutting-edge telescopes spanning more than 3 orders of magnitude in observing frequency (50MHz – 116 GHz).
Workshop • June 25th, 2023
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News • December 21st, 2018
With nearly 90 chapters (850+ pages) from 285+ authors, this volume highlights key areas of astrophysics that are ripe for major breakthroughs and underscores the broad U.S. and international support for pursuing a next-generation Very Large Array (ngVLA). While this published volume will serve as a critical snapshot for the ngVLA project ...
Conference • January 9th, 2023
This Special Session highlighted recent theoretical breakthroughs enabled by the VLA and ALMA, summarized planned VLA and ALMA improvements, discussed theoretical leaps that are likely to follow, and underscored the relevance of the VLA and ALMA to the science themes motivating the great observatories that will be commissioned in the next ...
Conference • January 9th, 2023
This special session at the URSI National Radio Science Meeting focused on recent technical development of the ngVLA concept and enabling technologies.
News • December 17th, 2018
A summary of the ngVLA Key Science Goals and Technical capabilities (December 17, 2018).
Science • March 8th, 2018
Multi-Messenger Science & Discovery with a Next Generation Very Large Array.
News • February 15th, 2018
Using new funding from the National Science Foundation (NSF) for exploring the design of a next-generation radio telescope, the National Radio Astronomy Observatory (NRAO) has contracted with an integrated-circuit design firm to design and produce a specialized integrated circuit that can greatly improve the efficiency of data transmission from ...
News • November 8th, 2017
As part of the process of building towards a final concept for the ngVLA, NRAO launched the ngVLA Community Studies program, allowing members of the scientific and engineering communities to become major contributors to this effort. Given the success of our first round of ngVLA Community Studies, a second round was initiated, aimed at tackling ...
News • September 14th, 2017
The National Radio Astronomy Observatory (NRAO) and Associated Universities, Inc. (AUI) are launching a new initiative to design a next generation radio telescope with scientific capabilities far beyond those provided by any existing or currently proposed observatory. Funding for the new initiative was provided by the National Science ...
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A fly through of the protoplanetary disk around HL Tau, first as seen by ALMA and the VLA, which do not have the necessary frequency coverage or angular resolution to probe into the terrestrial planet formation zone. The ngVLA will be able to peer into the center of this solar system on ~AU scales, uncovering terrestrial planets in formation ...
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This document describes some of the fundamental astrophysical problems that require observing capabilities at millimeter- and centimeter wavelengths well beyond those of existing, or already planned, telescopes. The results summarized in this report follow a solicitation from the National Radio Astronomy Observatory to develop key science cases ...
Science • April 24th, 2017
A fly through deep space showing the ngVLA's ability to both detect cold molecular gas, the fuel for star formation, at all redshifts. In addition to detecting these gas, the ngVLA will have the sensitivity and resolution to map and characterize this gas on kilo parsec scales as well as measure galaxy kinematics using these molecular lines.
The Next Generation Very Large Array (ngVLA) is a development project of the National Radio Astronomy Observatory (NRAO). NRAO is a facility of the National Science Foundation (NSF) operated under cooperative agreement by Associated Universities, Inc. This material is based upon work supported by the NSF under Grant No. AST-1519126. Any opinions, findings, and conclusions or recommendations expressed in the materials are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.