Category: Quantum Optics

Treating Big Molecules Like Electrons: “Real-time single-molecule imaging of quantum interference”

Richard Feyman famously once said that the double-slit experiment done with electrons contains everything that’s “‘at the heart of quantum physics.” It shows both particle and wave character very clearly: the individual electrons are detected one at a time, like particles, but the result of a huge number of detections clearly traces out an interference… Continue reading Treating Big Molecules Like Electrons: “Real-time single-molecule imaging of quantum interference”

Shedding Light on Quantum Gravity: “Probing Planck-scale physics with quantum optics”

It’s been a while since I did any ResearchBlogging posts, because it turns out that having an infant and a toddler really cuts into your blogging time. Who knew? I keep meaning to get back to it, though, and there was a flurry of excitement the other day about a Nature Physics paper proposing a… Continue reading Shedding Light on Quantum Gravity: “Probing Planck-scale physics with quantum optics”

Entanglement Is Not That Magic

One of the things that made me very leery of the whole Brian Cox electron business was the way that he seemed to be justifying dramatic claims through dramatic handwaving: “Moving an electron here changes the state of a very distant electron instantaneously because LOOK! THE WINGED VICTORY OF SAMOTHRACE EINSTEIN-PODOLSKY-ROSEN PAPER!” On closer inspection,… Continue reading Entanglement Is Not That Magic

On the Interconnectedness of Things

I finally got a copy of Cox and Forshaw’s The Quantum Universe, and a little time to read it, in hopes that it would shed some light on the great electron state controversy. I haven’t finished the book, but I got through the relevant chapter and, well, it doesn’t, really. That is, the discussion in… Continue reading On the Interconnectedness of Things

The Advent Calendar of Physics: Einstein’s Nobel

Yesterday’s equation was the first real result of quantum theory, Max Planck’s formula for the black-body spectrum. Planck never really liked the quantum basis of it, though, and preferred to think of it as just a calculational trick. It wasn’t until 1905 that anybody took the idea really seriously, leading to today’s equation: From the… Continue reading The Advent Calendar of Physics: Einstein’s Nobel

The Advent Calendar of Physics: Science Works

Moving along in our countdown to Newton’s birthday, we come to 1900, and one of the most revolutionary moment in the history of physics, represented in today’s equation: This is Max Planck’s formula for the spectrum of the “black-body” radiation emitted by a hot object at temperature T. It’s also the equation highlighted on what… Continue reading The Advent Calendar of Physics: Science Works

Quantum Computing with Microwaves

It’s been a while since I did any ResearchBlogging, first because I was trying to get some papers of my own written, and then because I was frantically preparing for my classes this term (which start Wednesday). I’ve piled up a number of articles worth writing up in that time, including two papers from an… Continue reading Quantum Computing with Microwaves

What’s So Interesting About Precision Measurement?

The final content area from my DAMOP overview is Precision Measurement. This is also the smallest area, with only one invited session on the topic on Fundamental Symmetry Tests, though two of the “Hot Topics” talks (by Zheng-Tian Lu and Ed Hinds) were precision measurement talks. You might be able to make an argument that… Continue reading What’s So Interesting About Precision Measurement?

What’s So Interesting About Quantum Phenomena?

Third of the five research categories within DAMOP that I talked about is Quantum Phenomena. This is a little bit of a catch-all, as there are a few different things going on in this area. They are all unified, though, by the fact that they end up making quantum mechanical effects manifest in some way,… Continue reading What’s So Interesting About Quantum Phenomena?