CWRU PAT Coffee Agenda

Tuesdays 10:30 - 11:30 | Fridays 11:30 - 12:30

+3 Dark Matter Superfluidity and Galactic Dynamics.

gds6 +1 cad96 +1 aam80 +1

+2 Spherical Collapse in Modified Gravity Theories.

gds6 +1 aam80 +1

+2 The Skeleton of the Milky Way.

gds6 +1 jtd55 +1

+1 Fine Tuning May Not Be Enough.

gds6 +1 aam80 +1 cad96 +1

+1 New Ambitwistor String Theories.

aam80 +1

+1 New generation low-energy probes for ultralight axion and scalar dark matter.

gds6 +1

Showing votes from 2015-06-26 12:30 to 2015-06-30 11:30 | Next meeting is Friday Jul 10th, 11:30 am.

users

  • No papers in this section today!

astro-ph.CO

  • New generation low-energy probes for ultralight axion and scalar dark matter.- [PDF] - [Article]

    Yevgeny V. Stadnik, Victor V. Flambaum
     

    We present a brief overview of a new generation of high-precision laboratory and astrophysical measurements to search for ultralight (sub-eV) axion, axion-like pseudoscalar and scalar dark matter, which form either a coherent condensate or topological defects (solitons). In these new detection methods, the sought effects are linear in the interaction constant between dark matter and ordinary matter, which is in stark contrast to traditional searches for dark matter, where the sought effects are quadratic or higher order in the underlying interaction constants (which are extremely small).

astro-ph.HE

  • No papers in this section today!

astro-ph.GA

  • The Skeleton of the Milky Way.- [PDF] - [Article]

    Catherine Zucker, Cara Battersby, Alyssa Goodman
     

    Recently, Goodman et al. (2014) argued that the very long, very thin infrared dark cloud "Nessie" lies directly in the Galactic mid-plane and runs along the Scutum-Centaurus arm in position-position-velocity ($p-p-v$) space as traced by lower density $\rm {CO}$ and higher density ${\rm NH}_3$ gas. Nessie was presented as the first "bone" of the Milky Way, an extraordinarily long, thin, high-contrast filament that can be used to map our Galaxy's "skeleton." Here, we present evidence for additional bones in the Milky Way Galaxy, arguing that Nessie is not a curiosity but one of several filaments that could potentially trace Galactic structure. Our ten bone candidates are all long, filamentary, mid-infrared extinction features which lie parallel to, and no more than 20 pc from, the physical Galactic mid-plane. We use $\rm {CO}$, ${\rm N}_2{\rm H}^+$, $\rm {HCO}^+$, and ${\rm NH}_3$ radial velocity data to establish the three-dimensional location of the candidates in ${\it p-p-v}$ space. Of the ten candidates, six also: have a projected aspect ratio of $\geqq$50:1; run along, or extremely close to, the Scutum-Centaurus arm in p-p-v space; and exhibit no abrupt shifts in velocity. Evidence suggests that these candidates are marking the locations of significant spiral features, with the bone called filament 5 ("BC_18.88-0.09") being a close analog to Nessie in the Northern Sky. As molecular spectral-line and extinction maps cover more of the sky at increasing resolution and sensitivity, it should be possible to find more bones in future studies, ultimately to create a global-fit to the Galaxy's spiral arms by piecing together individual skeletal features.

astro-ph.IM

  • No papers in this section today!

gr-qc

  • No papers in this section today!

hep-ph

  • No papers in this section today!

hep-th

  • New Ambitwistor String Theories.- [PDF] - [Article]

    Eduardo Casali, Yvonne Geyer, Lionel Mason, Ricardo Monteiro, Kai A. Roehrig
     

    We describe new ambitwistor string theories that give rise to the recent amplitude formulae for Einstein-Yang-Mills, (Dirac)-Born-Infeld, Galileons and others introduced by Cachazo, He and Yuan. In the case of the Einstein-Yang-Mills amplitudes, an important role is played by a novel worldsheet conformal field theory that provides the appropriate colour factors precisely without the spurious multitrace terms of earlier models that had to be ignored by hand. This is needed to obtain the correct multitrace terms that arise when Yang-Mills is coupled to gravity.

hep-ex

  • No papers in this section today!

quant-ph

  • No papers in this section today!

other

  • No papers in this section today!