This is a blog post on my most recent paper, written with my fellow Rutgers professor David Shih, a Rutgers NHETC postdoc Angelo Monteux, and two Rutgers theory grad students: David Feld (my student) and Sebastian Macaluso (David’s student). It was a pretty big project, as the large (for a theory paper) author list indicates, and in fact the end result was split into two papers for publication, with the 2nd paper coming along shortly.Read More
I was asked to give a talk at the 2016 TOP Conference in Olomouc, Czech Republic. The TOP Conference is, as the name implies, a conference about the top quark. It was mostly experimentalists, with only a few theorists. I was asked to talk about possible connections between the top quark and dark matter. Since there weren't many theorists, I decided to give a relatively broad overview of the topic, rather than drilling down on one particular paper of mine. Here's the talk as I gave it.Read More
In science fiction, it is pretty standard fare to introduce some form of faster-than-light communication or travel. After all, space is big, and you can't write your swashbuckling Hornblower-in-space novel if you have to wait for a generation ship to crawl painfully slowly between the nearest stars, much less try to cross a galaxy.
However, faster-than-light communication (which includes travel) breaks something very fundamental about physics, something that is often ignored by sci-fi, and difficult for non-physicists to understand. If you allow faster-than-light (FTL), then you break causality: you are allowing time-travel.Read More
This week is the ICHEP2016 meeting in Chicago, which serves as one of the major summer conferences where experiments release their accumulated results. One of the most anticipated results this year was the update on the diphoton anomaly which was found in ATLAS and CMS data collected last year in the first bit of 13 TeV data from the LHC.Read More
Its an interesting challenge to explain physics using twitter. Working with ideas than can be chopped up to 140 character chunks really focuses you. Magnets are complicated things, but this should give you an idea.Read More
I want to talk a little about the central idea that led Einstein to the concept of General Relativity. To get there, I want you to perform a little experiment.
Take a moment to think carefully about the forces you feel on yourself right now. If you’re sitting, you feel the chair pushing on your back, which pushes on the rest of your body. You feel the floor pushing your feet up. You might feel the muscles and tendons in your shoulder holding your arm up, or strain your neck holding your head up.
But do you feel the force of gravity?Read More
I'm at a workshop (hosted by the theorists at U Oregon in Eugene) on recent LHC anomalies, most notably the diphoton excess of which there has been so much noise of late. I was fortunate enough to be asked to give the opening talk, showing my theorist-level fits to the CMS and ATLAS diphoton data. I thought it might be nice to put the slides I used up here. Enjoy.Read More
Here, I describe a recent paper I wrote with a group of experimentalists (Jim Brooke, Patrick Dunne, Bjoern Penning, and Miha Zgubic) and a Rutgers undergrad, John Tamanas. We investigated the ability of the Large Hadron Collider (LHC) to find dark matter using a particular type of event, one called “vector boson fusion,” or VBF.Read More
The first part of this is a non-specialist description of the results of Moriond concerning the diphoton anomaly. About halfway through it will transition into a more technical discussion, including new plots I've made giving my theorist-level combinations of the data shown.Read More
This is a description of a recent paper of mine, with Jonathan Sloane (a graduate student in the astro group here at Rutgers), Alyson Brooks (also a professor at Rutgers), and Fabio Governato (faculty at U Washington). We took high resolution simulations of galaxies like the Milky Way, and looked at what that can tell us about how dark matter is moving near the Earth, and what that means for how direct detection experiments look for dark matter.Read More
Pretty much everything I know now about the anomaly at 750 GeV. Read this, and you'll know it too. It’s nothing too certain, but I expected that going in. 3.6σand 2.6σ is just not that much significance to start with, so any question I ask would have conflicting and uncertain results, with at best only minor preferences for any particular result. But I internalized a lot about the experimental results by forcing myself to grind through the data, and once you’ve done that much work it seemed silly not to write a paper about it.Read More
Yesterday was the first data release of the LHC Run-II, and there has been a lot of interest in the first hints of something new. I’m skeptical, and wishing for more data. There are some suspicious tensions with previous results, but it’s certainly not clearly wrong, and its definitely the most intriguing sign of something new since the Higgs discovery. Unfortunately, we’ll have to wait at least a year to get more data to directly speak to this anomaly. It will be a difficult wait. But while we wait, read this to find out more of what we're looking at.Read More
I'm going to describe my most recent paper, written with my now-frequent collaborator, Dorival Gonçalves, postdoc at the IPPP at Durham University. This paper is closely related to Dorival and my previous paper together, which I wrote about here. In fact, this was the project we were working on when we realized what we were doing had application to Higgs physics. When that happened, we decided to drop what we were currently working on and rush out the Higgs-related paper. Then we returned to the original idea, which was to find ways to study dark matter production at the LHC.Read More
I keep my eye on the results of a lot of experiments. But there is one type of experiment that is my favorite. Not because necessarily because it yields the strongest bounds, or has the most interesting possible signals or anything, but because the physics behind it is so much fun.Read More
This week (October 6, 2015), the Nobel Committee announced that Takaaki Kajita and Arthur B. McDonald were awarded this years Nobel Prize in Physics for
"the discovery of neutrino oscillations, which shows that neutrinos have mass"
So what are neutrinos, and why is their oscillation so interesting and Nobel-worthy?Read More
In this post, I'll talk about my recent paper, written with my graduate student, David Feld.
This paper is interested in leptophilic Higgs models, and their possible connection to dark matter. I'll explain what those are in a bit. Such models have been considered before, but looking around at the literature, we didn't see a lot that had been updated after the discovery in 2012 of the Higgs boson at 125 GeV. We wanted to see what changed once we folded these new results in to the mix.Read More
I'm going to describe my most recent paper, written with Dorival Gonçalves, postdoc at the IPPP at Durham University. This is the arXiv version, as is usual in particle physics, we submit to the preprint serve, collect up commentary and citation requests, then get around to submitting to a journal.Read More