You are here: Foswiki>Cosmo Web>DoktoratTematy (revision 8)EditAttach

Doktorat na TCfA

Warning: This info may be incomplete and partly out of date!

administrative steps

formal documents

Mostly in Polish:


  • stipends:
    • normal stipends are only for Polish citizens (EU rules should, in principle, allow other EU citizens, but this may not yet be implemented in national law nor in UMK rules)
    • stipend only lasts for one year; new competition for stipends each year of doctorate, depending on chance and a supposedly meritocratic points system
    • grants can be applied for in the national grant system (NCN), partly written in English, partly written in Polish
  • in addition to research, the doctorant must do coursework + teaching:
  • the "przewod doktorski" (declaration of intent to submit a thesis) must be "opened" by the second year at latest

visits by scientists from Central/Eastern Europe

  • Mianowski Fund: 1-12 months research visit, if you already have a position and a degree (master's maybe enough?) in your home country
    • mianowski waw pl/programme.htm

Ewentualny Tematy

Non-perturbative N-body/GR simulations

N-body simulations (e.g. AstroPh:0411043, ArXiv:1105.1082, AstroPh:0111367) used for the modelling of 0.1 to 5 Gpc scale structure formation assume a rigid Friedmann-Lemaitre-Robertson-Walker (FLRW) background against which perturbations grow according to Newtonian gravity, while the FLRW background itself evolves assuming that structure formation do not form. An UMK-Lyon project is underway to develop relativistic methods of correcting N-body simulations for this contradiction, by using scalar averaging (AstroPh:9912347, ArXiv:0707.2153, ArXiv:0803.1401, ArXiv:1203.6263, ArXiv:1303.6193). The main result of the full project (ArXiv:1706.06179) is that more accurate simulations help show that "dark energy" is a misinterpretation of the virialisation epoch, during which much of the most massive galaxies and galaxy clusters formed. The student's contribution would be in checking caveats of this calculational method and/or proposing extensions.

Measuring metric inhomogeneity with BAO

The Universe is not homogeneous, but the Concordance Model starts with a spatially-homogeneous solution to the Einstein field equations and afterwards applies perturbations. The scalar averaging approach (AstroPh:9912347, ArXiv:0707.2153, ArXiv:0803.1401, ArXiv:1203.6263, ArXiv:1303.6193) proposes a relativistically more realistic approach to cosmological modelling. The initial measurement of a shift of about 6% in the baryonic acoustic oscillation (BAO) peak location (ArXiv:1410.1687) in overdense regions provides the first tentative evidence of metric inhomogeneity. The calculations using the presently available software are cpu-intensive. A student would help develop algorithmic speedups, tests of the different software modules, and possibly GPGPU modules under OpenCL.
Edit | Attach | Print version | History: r13 | r9 < r8 < r7 < r6 | Backlinks | View wiki text | Edit WikiText | More topic actions...
Topic revision: r8 - 21 Mar 2018, BoudRoukema
This site is powered by FoswikiCopyright © CC-BY-SA by the contributing authors. All material on this collaboration platform is copyrighted under CC-BY-SA by the contributing authors unless otherwise noted.
Ideas, requests, problems regarding Foswiki? Send feedback