Attracted to the Core

My latest cartoon for New Scientist

Scientists have made a satisfying and intriguing physics discovery some 16 years after it was first predicted to be a possibility: a quasiparticle (a group of particles behaving as one) that only has an effective mass when moving in one direction. In physics, mass generally refers to a property of particles that relates to things like their energy and resistance to movement. Yet not all mass is built the same – some describes the energy of a particle at rest, for example, while mass may also take into account the energy of a particle's motion. In this case, the effective mass describes the quasiparticle's response to forces, which varies depending on whether the movement through the material is up and down, or back and forth. Whereas regular quasiparticles have the same mass no matter what their direction of travel, the semi-Dirac fermion (to give it its technical name) being studied here doesn't seem to play by the normal rules.

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[6/8/24] i got a result for my calculations,,,, but at what cost? Mathematica was being mean to me so i ended up graphing it on desmos instead which told me that my code wasn’t wrong,,,, i just didn’t expect the results! anyway, idk what to tell my prof bc i got this far without having the faintest clue abt what quantum mechanics is!

i did find a cool new study nook in one of my favourite buildings tho. might abandon my office in its favour

I made this after dumping a bunch of info about leptons onto my friend today skfjdkkdjd

some physics valentines from your favourite plant biology blog. may your love last longer than the half-life of a proton

My latest cartoon for New Scientist.

good morning electrons good morning muons good morning taus good morning neutrinos good morning quarks good morning bosons

Mathematical methods point to possibility of particles long thought impossible

From the early days of quantum mechanics, scientists have thought that all particles can be categorized into one of two groups—bosons or fermions—based on their behavior. However, new research by Rice University physicist Kaden Hazzard and former Rice graduate student Zhiyuan Wang shows the possibility of particles that are neither bosons nor fermions. Their study, published in Nature, mathematically demonstrates the potential existence of paraparticles that have long been thought impossible. "We determined that new types of particles we never knew of before are possible," said Hazzard, associate professor of physics and astronomy.

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In 1956, theoretical physicist David Pines predicted that electrons in a solid can do something strange. While they normally have a mass and an electric charge, Pines asserted that they can combine to form a composite particle that is massless, neutral, and does not interact with light. He called this particle a "demon." Since then, it has been speculated to play an important role in the behaviors of a wide variety of metals. Unfortunately, the same properties that make it interesting have allowed it to elude detection since its prediction. Now, a team of researchers led by Peter Abbamonte, a professor of physics at the University of Illinois Urbana-Champaign, have finally found Pines' demon 67 years after it was predicted. As the researchers report in the journal Nature, they used a nonstandard experimental technique that directly excites a material's electronic modes, allowing them to see the demon's signature in the metal strontium ruthenate. "Demons have been theoretically conjectured for a long time, but experimentalists never studied them," Abbamonte said. "In fact, we weren't even looking for it. But it turned out we were doing exactly the right thing, and we found it."

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[12/8/24] weak interaction is so booooo. i rlly can’t process it as well as QED or QCD fr fr. things are clearer after i met w prof (for the last time in person before semester starts)

but look at those mutated ξs! i got lazy w them. i want to finish the Mathematica notebook for this before semester starts and hopefully get a good write up done too.

17.4.

Last exam done! and i already know i passed the one from friday(theoretical electrodynamics). sadly not a good grade but that was to be expected, just happy i wont have to take the lecture again 🥲

the new semester already started on monday, i have to catch up on the lecture i missed yesterday. but had my first computational physics lecture today and it was really nice! looking forward to this :>>

New physics fanart !!