LIGO Spots Another Gravitational Wave Soon After Powering Back On

New submitter nichogenius writes: The latest observation run of LIGO and VIRGO only started April 1st, but has already observed another black hole merger. The LIGO detectors have been offline since the 25th of August, 2017 for a series of upgrades. The latest observational run is the first run where gravitational wave events are being publicly announced as they happen rather than being announced weeks or months later. Few details of the merger are available at this time, but there is some information available on LIGO's twitter and raw details can be obtained from LIGO's event database page.

Gravitational detection events are being publicly broadcast using NASA's VOEvent system. If you know a bit of python, you can setup your own VOEvent client using the pygcn module with example code available in this tutorial.

new scientist article

[e**(i+pi)-1]

it is nice to see that machine back on and working. I would have liked a bit more background, what actually has changed during the upgrade. It seems that this contained only in a ``premium article" in the new scientist. Fortunately there are other sources where on can look things up: 40 percent more sensitive machine leading to twice the volume of space to be observable. Some main mirrors were replaced, the laser power increased and a technique called ``squeezing" introduced which counteracts the now stronger distortion of the beam. Also new is that detections of events are publicly announced as soon as they are available. Here is the source: https://news.stanford.edu/2019...

Re:new scientist article

[epine]

You missed improvements in event localization to enable traditional astronomy to zoom in on neutron star mergers with an electromagnetic signature. This includes a wide-aperture radio facility (IIRC) and an improved algorithm to search the probable area. Plus, if they have all three facilities in good working order, they get a smaller statistical banana in space to start with (perhaps to improve again once the Japanese facility begins to participate, which I think is slated for later in the year).

Re:Overenthousiastic scientist?

[trenien]

And yet, no physics law prohibits it

https://en.wikipedia.org/wiki/...

As a matter of fact, the very same LIGO let us see two neutron stars doing that exactly back in 2017.

On the other hand, as far as I'm aware, there are no conclusive observation of black holes, which makes for a much more spectacular headline.

Re:Overenthousiastic scientist?

[Sique]

Neutron stars don't have a large radiation pressure. They are inactive stars. Yes, they accelerate stuff from their accredition disc, and thus they send out huge amounts of particles and synchrotron radiation, but only on their poles. But around their equator, they don't have any radiation pressure at all.