Документ взят из кэша поисковой машины. Адрес оригинального документа : http://www.asc.rssi.ru/RadioAstron/ao-3/radioastron_ao3_proposal_template.pdf Дата изменения: Fri Dec 26 21:18:23 2014 Дата индексирования: Sat Apr 9 23:32:15 2016 Кодировка: Поисковые слова: http www.mso.anu.edu.au pfrancis string

RadioAstron AO-3 prop osal
Submission dead line: 26 January 2015, 23:59 UT.

COVER PAGE
Title: Black hole discovery Authors: Ivan Petrov, John Smith (Russian Academy of Sciences, Moscow, Russia) Abstract: 100 words limit. Pro ject type: KSP Select from the fol lowing: KSP or GOT. Pro ject science category: AGN Select from the fol lowing list, more than one can be selected: AGN, pulsars, masers, ISM, astrometry, gravity, other. Team contact name and e-mail address: Ivan Petrov (e-mail: Ivan.Petrov@gmail.com ) Total observing time request: 60 hrs Should be < 100 hours if GOT. Number of independent observing segments and typical range of pro jected baselines required: 2 0 ( 3 - 3 0 E a r t h d i a m et er s ) Specific dates and time intervals requested: If your experiment requires specific dates and UT ranges, please, indicate them: February 1, 2016: 08:00-16:00 UT -- M87 imaging, option 1; February 9, 2016: 08:00-16:00 UT -- M87 imaging, option 2; March 1, 2016: 14:00-24:00 UT -- Cen-A imaging. or in case of fringe surveys a general request could be made like: any day/time around the year when targets are visible for RadioAstron at requested pro jected b a s el i n es . Observing band(s) [select from P - 92cm, L - 18cm, C - 6cm, K - 1.3cm]: C and K also indicate specific central observing frequency, if needed, e.g., for spectral line observations, fol lowing the RadioAstron users handbook S o u r ce l i s t o r M87 12:30 Cen-A 13:25 or: Fifty SMBH 100 mJy at 6 s a m p l e s el ect i o n cr i t er i a i f m o r e t h a n 3 0 t a r g et s ; i n d i ca t e p r i o r i t i es , i f d es i r ed : : 4 9 . 4 2 3 3 8 2 + 12: 2 3 : 2 8 . 0 4 3 6 6 ( J 2 0 0 0 ) : 2 7 . 6 1 5 2 1 1 -4 3 : 0 1 : 0 8 . 8 0 4 7 3 ( J 2 0 0 0 ) candidates within 100 Mpc from Earth with correlated flux density greater than cm .

Ground array support · Optimal: all GRTs around the world · Minimal acceptable: One 100-m telescope (Effelsberg or GBT) Ground radio telescopes (GRTs) requested within this proposal: Sv, Zc, Bd, Ef Telescopes which have committed to co-observing with RadioAstron: Sv, Bd, Zc, Ud, Ro, Ys, Nt, Mc, Sr, Tr, Jb1, Ur, Sh, Tm, Hh. see special constraints and comments in the `RadioAstron AO-3 document', section 2.4. 1


GRTs or networks (to be) requested in a separate proposal directly to the appropriate ground facilities: EVN or G BT Correlator: ASC Make sure to check the `RadioAstron AO-2 document', section 2.5, for other options which are MPIfR-DiFX, SFXC. Special constraints: ... Expected length of this cover page is two pages, however, there is no formal limit.

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Scientific and technical justification, technical details
Please use an 11+ pt font size and limit the length of the justification to six/four pages including figures, tables and references for KSP/GOT proposals, respectively. 1 t o f I p . o u o f r Introduction -- providing concise background information necessary assess the scientific merits of the research proposed; tlining the reasons for the project to constitute key science area r RadioAstron if the KSP-type is selected. the project is a continuation of previous observations -- discuss eliminary results of ESP and/or AO-1,2 RadioAstron observations.

2. Research Goals -- describing the main goals of the observations proposed and their impact on the broader field of astrophysics. 3. Observational Strategy -- describing the methodology of observations. 4. AO-3 Observations -- describing specific observations and time request for the AO-3. 5 e o r . m p e T pl ti qu e o m i c y a r h e l e nical Justification -- describing the observing modes to be d, discussing the feasibility of proposed observations, and minimum acceptable ground support required for the project, d detection limits, dynamic range, and uv-coverage of observations.

The KSP proposals should additionally address the following issues: 6. Team Capacity -- reviewing the team capacities to execute the timely completion of the project and publication of results. 7. Overall duration of the program -- providing an estimate of the overall observing time required for completion of the project if the full experiment is intended to be carried over several AO periods.

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