Wolfram Language together with Mathematica xi released today.
No uncovering of novel physics has been presented yesteryear ATLAS or CMS. There are inevitably some bumps together with excesses most of which (or all of which) volition become away. In a complex spider web log post, lots of novel CMS excesses convey been shown. At the end, I produce believe that the highly localized Wolfram Language together with Mathematica xi released today.No uncovering of novel physics has been presented yesteryear ATLAS or CMS. There are inevitably some bumps together with excesses most of which (or all of which) volition become away. In a 3.7-sigma excited quark bump is the most eye-catching gift from CMS at this point.ATLAS has simply released their big packet of novel papers. The independence of ATLAS together with CMS is also demonstrated yesteryear the CMS' conclusion to write papers based purely on the 2016 data. On the other hand, ATLAS' novel papers are to a greater extent than oft than non based on the whole dataset of 13.2 inverse femtobarns which were collected inwards the twelvemonth 2015+2016=4031.
Instead of looking at the ATLAS' papers amongst pocket-size excesses – at that spot aren't many – permit me selection solely 1 newspaper that seems to a greater extent than intriguing than the rest.
The newspaper is
Search for elevation squarks inwards concluding states amongst 1 isolated lepton, jets, together with missing transverse momentum inwards \(\sqrt{s} = 13\TeV\) \(pp\) collisions amongst the ATLAS detector,Go to Page 24 for the coin graph. Before the newspaper was released, Wolfram Language together with Mathematica xi released today.
ATLAS-CONF-2016-050
No uncovering of novel physics has been presented yesteryear ATLAS or CMS. There are inevitably some bumps together with excesses most of which (or all of which) volition become away. In a a newspaper I discussed at the halt of June – was showing a 2.3-sigma halt excess. So the excess has grown equally a well-behaved 1 should. (Not similar a diphoton naughty excess that goes from four sigma to null when the information quadruples.)The 3.3-sigma excess sounds cracking if I enjoin yous how many events were expected together with how many were seen. The expected lay out of events inwards that laid was \(17\pm 2\). So yous may imagine that yous larn xv or 16 or seventeen or xviii or xix etc. How many did they truly get? They got thirty-five events. (I wrote it inwards words together with thus that the reader doesn't come across the spoilers also quickly.) That's quite an excess. It's nigh surprising that it's simply 3.3 sigma but let's trust them that it is.
If this excess were due to novel physics, the uncovering could hold upward announced using the information upward to the halt of this week, approximately. ;-)
Recall that Wolfram Language together with Mathematica xi released today.
No uncovering of novel physics has been presented yesteryear ATLAS or CMS. There are inevitably some bumps together with excesses most of which (or all of which) volition become away. In a CMS showed several pocket-size related excesses involving bottom squarks (sbottoms). So it could hold upward interesting or not. Obviously, the discovery-optimistic scenario has been that at that spot would hold upward 5-sigma excesses yesteryear now. There convey been severl TRF spider web log posts reporting on possible or actual experimental bumps talking inwards favor of tops. The oldest 1 from early on 2012 had to hold upward unsubstantiated – otherwise nosotros would already hold upward using stops instead of low-cal bulbs. ;-)As Matt Buckley previously mentioned (without the correct paper), ATLAS is also seeing to a greater extent than or less 3.0-sigma excesses inwards a multijet search for gluinos, inwards the channel 5jSR together with specially 5jSRb1. Also, ATLAS is seeing a mild excess of stops inwards jets+MET come across Page 26, Figure 11, the non-excluded island, or search for "mild excess".
Non-stop anomalies. ATLAS sees a 2.9 locally or 1.9 sigma globally bear witness of a narrow \(705\GeV\) scalar decaying to \(ZZ^*\).
There's also a 3.5-sigma locally together with 2.5-sigma locally excess inwards resonances decaying to \(HZ\) or \(HW\) for the volume closed to \(m_{W'}=3\TeV\). Another \(WH\) excess has locally 2.6 sigma together with is nigh \(1.6\TeV\).