Документ взят из кэша поисковой машины. Адрес оригинального документа : http://www.naic.edu/vscience/schedule/tpfiles/JonestagA2982tp.pdf Дата изменения: Wed Mar 11 02:46:26 2015 Дата индексирования: Mon Apr 11 15:34:57 2016 Кодировка:

Proposal Identification No.:

A2982

Date Received:

2015-Mar-02 15:12:23

Technical Page
This proposal has not been submitted before. Proposal Type: General Category: Sub-Category: Observation Category: Total Time Requested: Minimum Useful Time: Prop osal Title: ABSTRACT: Regular Astronomy Spectroscopy Extragalactic 126.5 Hours 2 hours

The Arecibo Pisces-Perseus Supercluster (APPS) Survey

In visualizations of the large scale structure within 100 Mpc, the Pisces-Perseus Supercluster (PPS) represents a strong overdensity, separated from the local Laniakea supercluster by a deep void. The PPS extends over 50 degrees of the Arecibo sky at a near-constant distance of 70 Mpc. Here, we propose to extend the results of the ALFALFA survey by conducting LBW HI-line observations of galaxies which are likely, based on photometry derived from SDSS and GALEX, to be PPS members, but which lie below the ALFALFA detection limit. Previous LBW observations under A2811 and A2859 have demonstrated the efficacy of this approach to increase the HI dataset by 50%. In addition to tracing the HI mass function to log MH = 8, we will use the Tully-Fisher relation to make a robust measurement of infall onto the PPS for comparison with flows predicted by constrained simulations.

Name Michael G Jones

Institution Cornell University

E-mail jonesmg@astro.cornell.edu

Phone 607 255 9852

Student G

Remote Observing Request

X

Observer will travel to AO Remote Observing In Absentia (instructions to operator)

Instrument Setup
L-wide Atmospheric Observation Instruments:

Sp ecial Equipment or setup:

none

RFI Considerations
1


Frequency Ranges Planned
1360-1430 MHz This proposal requires coordination with Punta Salinas radar within the band 1222-1381 MHz.. This proposal requires coordination with GPS L3 at 1381 MHz.

2