While I was away for the weekend, intending to mostly ignore the Internet, Steve Maier tweeted: #FantasyFootball ? What if #FantasyPhysics existed–who would be your picks? This, of course, ended up sucking up a huge amount of mental energy for the rest of the weekend, because it’s such perfect blog fodder. If I’d had a… Continue reading Fantasy Physics Season Preview
Category: Physics
Fun With Simulated Scattering
Two chapters of the book-in-progress will be devoted to the development of the modern understanding of the atom. One of these is about the Bohr model, which turned 100 this year, but Bohr’s model would not have been possible without an earlier experiment. The actual experiment was done by Ernest Marsden and Hans Geiger, but… Continue reading Fun With Simulated Scattering
Laser-Cooled Atoms: Cesium
Element: Cesium (Cs) Atomic Number: 55 Mass: One stable isotope, mass 133 amu. Laser cooling wavelength: 854nm, but see below. Doppler cooling limit: 125 μK. Chemical classification: Yet another alkali metal, column I of the periodic table. This one isn’t greyish, though! It’s kind of gold color. Still explodes violently in water, though. Other properties… Continue reading Laser-Cooled Atoms: Cesium
On Blogging, Aleph-Nought in a Series
It’s been a banner week for blogging advice, between John Scalzi’s thoughts on comments and Bee’s advice on whether to write a science blog. Both of them are worth a read, and I don’t have a great deal to add, but writing the stuff I’m supposed to be writing this morning is like pulling my… Continue reading On Blogging, Aleph-Nought in a Series
Laser-Cooled Atoms: Chromium
Element: Chromium (Cr) Atomic Number: 24 Mass: Four “stable” isotopes between 50 and 54 amu. Chromium-50 is technically radioactive, with a half-life considerably longer than the age of the universe, so… Laser cooling wavelength: 425nm, but see below. Doppler cooling limit: 120 μK. Chemical classification: Transition metal, smack in the middle of the periodic table.… Continue reading Laser-Cooled Atoms: Chromium
Wanted: The Hoosiers of Science
I’ve been revising a chapter on collaboration in science for the book-in-progress, making an analogy to team sports. And it occurred to me as I was trying to find a way to procrastinate, that while science is a highly collaborative endeavor, most of the popular stories that get told about science are not. There’s no… Continue reading Wanted: The Hoosiers of Science
Laser-Cooled Atoms: Lithium
Element: Lithium (Li) Atomic Number: 3 Mass: Two stable isotopes, masses 6 and 7 amu Laser cooling wavelength: 671 nm Doppler cooling limit: 140 μK. Chemical classification: Alkali metal, column I in the periodic table. Yet another greyish metal. We’re almost done with alkalis, I promise. Less reactive than any of the others, so the… Continue reading Laser-Cooled Atoms: Lithium
Laser-Cooled Atoms: Francium
Element: Francium (Fr) Atomic Number: 87 Mass: Numerous isotopes ranging in mass from 199 amu to 232 amu, none of them stable. The only ones laser cooled are the five between 208 amu and 212 amu, plus the one at 221 amu. Laser cooling wavelength: 718 nm Doppler cooling limit: 182 μK. Chemical classification: Alkali… Continue reading Laser-Cooled Atoms: Francium
Admissions and Hiring: Faculty Are Students in a Funhouse Mirror
In one of those Information Supercollider moments, two very different articles crossed in my social media feeds, and suddenly seemed to be related. The first was this New York Post piece by a college essay consultant: Finally, after 15 or so years of parents managing every variable, there comes the time when a student is… Continue reading Admissions and Hiring: Faculty Are Students in a Funhouse Mirror
Laser-Cooled Atoms: Strontium
Element: Strontium (Sr) Atomic Number: 38 Mass: Four stable isotopes, ranging from 84 to 88 amu Laser cooling wavelength: Two different transitions are used in the laser cooling of strontium: a blue line at 461 nm that’s an ordinary sort of transition, and an exceptionally narrow “intercombination” line at 689 nm. Doppler cooling limit: 770… Continue reading Laser-Cooled Atoms: Strontium