- The slides for most of the talks at the Shoucheng Zhang memorial workshop are now available - there are pdf links on the schedule page.
- Charles Kittel has passed away. I have not been able to find an obituary online anywhere yet - I will update this accordingly when one appears. (The closest I've been able to find is here.) He was a great physicist - he is one of the Ks in the RKKY interaction, and had a big impact on physics pedagogy through his books, which include: the mechanics volume of the Berkeley Physics Course; the grad level Quantum Theory of Solids; the undergrad level Introduction to Solid State Physics; and Thermal Physics with Herb Kroemer.
- Much more has been written in the last couple of days about Murray Gell-Mann passing away. See the NY Times, the Washington Post, and Science News, for example.
- Back in January, a study was published in Science Advances that makes a compelling case that the physics subject GRE is basically useless as a predictor of performance in grad school.
- The NSF has a video with their advice on how to review proposals.
- The National Academy has released its decadal survey, Frontiers of Materials Research. You can download a free pdf copy (at least, from within the US you can; not sure about non-US readers). Some controversy from one of the sponsors....
- As pointed out by a commenter on the previous post, there is an updated version of the paper from last year was a report of superconductivity in Ag-decorated Au nanoparticles dropcast as a film. An optimistic discussion is here. As I said at the time, extraordinary claims require extraordinary evidence - at least, independent verification.
A blog about condensed matter and nanoscale physics. Why should high energy and astro folks have all the fun?
Saturday, May 25, 2019
Brief items
A number of interesting items:
Thursday, May 23, 2019
Publons?
I review quite a few papers - not Millie Dresselhaus level, but a good number. Lately, some of the electronic review systems (e.g., manuscriptcentral.com, which is a front end for "Scholar One", a product of Clarivate) have been asking me if I want to "receive publons" in exchange for my reviewing activity.
What are publons? Following the wikipedia link above is a bit informative, but doesn't agree much with my impressions (which, of course, might be wrong). My sense is that the original idea here was to have some way of recording and quantifying how much effort scientists were putting into the peer review process. Reviewing and editorial activity would give you credit in the form of publons, and that kind of information could be used when evaluating people for promotion or hiring. (I'm picturing some situation where a certain number of publons entitles you to a set of steak knives (nsfw language warning).)
The original idea now seems to have been taken over by Clarivate, who are the people that run Web of Science (the modern version of the science citation index) and produce bibliographic software that continually wants to be upgraded. Instead of just a way of doing accounting of reviewing activity, it looks like they're trying to turn publons into some sort of hybrid analytics/research social network platform, like researchgate. It feels like Clarivate is trying to (big surprise here in the modern age of social media) have users allow a bunch of data collection, which Clarivate will then find a way to monetize. They are also getting into the "unique researcher identifier" game, apparently in duplication of or competition with orcid.
Maybe it's a sign of my advancing years, but my cynicism about this is pretty high. Anyone have further insights into this?
What are publons? Following the wikipedia link above is a bit informative, but doesn't agree much with my impressions (which, of course, might be wrong). My sense is that the original idea here was to have some way of recording and quantifying how much effort scientists were putting into the peer review process. Reviewing and editorial activity would give you credit in the form of publons, and that kind of information could be used when evaluating people for promotion or hiring. (I'm picturing some situation where a certain number of publons entitles you to a set of steak knives (nsfw language warning).)
The original idea now seems to have been taken over by Clarivate, who are the people that run Web of Science (the modern version of the science citation index) and produce bibliographic software that continually wants to be upgraded. Instead of just a way of doing accounting of reviewing activity, it looks like they're trying to turn publons into some sort of hybrid analytics/research social network platform, like researchgate. It feels like Clarivate is trying to (big surprise here in the modern age of social media) have users allow a bunch of data collection, which Clarivate will then find a way to monetize. They are also getting into the "unique researcher identifier" game, apparently in duplication of or competition with orcid.
Maybe it's a sign of my advancing years, but my cynicism about this is pretty high. Anyone have further insights into this?
Sunday, May 19, 2019
Magnets and energy machines - everything old is new again.
(Very) long-time readers of this blog will remember waaaay back in 2006-2007, when an Irish company called Steorn claimed that they had invented a machine, based on rotation and various permanent magnets, that allegedly produced more energy than it consumed. I wrote about this here, here (complete with comments from Steorn's founder), and here. Long story short: The laws of thermodynamics were apparently safe, and Steorn is long gone.
This past Friday, the Wall Street Journal published this article (sorry about the pay wall - I couldn't find a non-subscriber link that worked), describing how Dennis Danzik, science and technology officer for Inductance Energy Corp, claims to have built a gizmo called the Earth Engine. This gadget is a big rotary machine that claims it spins two 900 kg flywheels at 125 rpm (for the slow version), and generates 240V at up to 100A, with no fuel, no emissions, and practically no noise. They claim to have run one of these in January for 422 hours generating an average 4.4 kW. If you want, you can watch a live-stream of a version made largely out of clear plastic, designed to show that there are no hidden tricks.
To the credit of Dan Neil, the Pulitzer-winning WSJ writer, he does state, repeatedly, in the article that physicists think this can't be right. He includes a great quote from Don Lincoln: "Perpetual motion machines are bunk, and magnets are the refuge of charlatans."
Not content with just violating the law of conservation of energy, the claimed explanation relies on a weird claim that seemingly would imply a non-zero divergence of \(\mathbf{B}]) and therefore magnetic monopoles: "The magnets IEC uses are also highly one-sided, or 'anisotropic,' which means that their field is stronger on one face than the other - say 85% North and 15% South".
I wouldn't rush out and invest in these folks just yet.
This past Friday, the Wall Street Journal published this article (sorry about the pay wall - I couldn't find a non-subscriber link that worked), describing how Dennis Danzik, science and technology officer for Inductance Energy Corp, claims to have built a gizmo called the Earth Engine. This gadget is a big rotary machine that claims it spins two 900 kg flywheels at 125 rpm (for the slow version), and generates 240V at up to 100A, with no fuel, no emissions, and practically no noise. They claim to have run one of these in January for 422 hours generating an average 4.4 kW. If you want, you can watch a live-stream of a version made largely out of clear plastic, designed to show that there are no hidden tricks.
To the credit of Dan Neil, the Pulitzer-winning WSJ writer, he does state, repeatedly, in the article that physicists think this can't be right. He includes a great quote from Don Lincoln: "Perpetual motion machines are bunk, and magnets are the refuge of charlatans."
Not content with just violating the law of conservation of energy, the claimed explanation relies on a weird claim that seemingly would imply a non-zero divergence of \(\mathbf{B}]) and therefore magnetic monopoles: "The magnets IEC uses are also highly one-sided, or 'anisotropic,' which means that their field is stronger on one face than the other - say 85% North and 15% South".
I wouldn't rush out and invest in these folks just yet.
Friday, May 17, 2019
Light emission from metal nanostructures
There are many ways to generate light from an electrically driven metal nanostructure.
The simplest situation is just what happens in an old-school incandescent light bulb, or the heating element in a toaster. An applied voltage \(V\) drives a current \(I\) in a wire, and as we learn in freshman physics, power \(IV\) is dissipated in the metal - energy is transferred into the electrons (spreading them out up to higher energy levels within the metal than in the undriven situation, with energy transfer between the electrons due to electron-electron interactions) and the disorganized vibrational jiggling of the atoms (as the electrons also couple to lattice vibrations, the phonons). The scattering electrons and jiggling ions emit light (even classically, that's what accelerating charges do). If we look on time scales and distance scales long compared to the various e-e and e-lattice scattering processes, we can describe the vibrations and electron populations as having some local temperature. Light is just electromagnetic waves. Light in thermal equilibrium with a system (on average, no net energy transfer between the light and the system) is distributed in a particular way generically called a black body spectrum. The short version: current heat metal structures, and hot structures glow. My own group found an example of this with very short platinum wires.
In nanostructures, things can get more complicated. Metal nanostructures can support collective electronic modes called plasmons. Plasmons can "decay" in different ways, including emitting photons (just like an atom in an excited state can emit a photon and end up in the ground state, if appropriate rules are followed). It was found more than 40 years ago that a metal/insulator/metal tunnel junction can emit light when driven electrically. The idea is, a tunneling electron picks up energy \(eV\) when going from one side of the junction to the other. Some fraction of tunneling electrons deposit that energy into plasmon modes, and some of those plasmon modes decay radiatively, spitting out light with energy \(\hbar \omega \le eV\).
This same thing can happen in scanning tunneling microscopy. There is a "tip mode" plasmon where the STM tip is above the conducting sample, and this can be excited electrically. That tip plasmon can decay optically and spit out photons, as discussed in some detail here back in 1990.
The situation is tricky, though. When it comes down to atomic-scale tunneling and all the details, there are deep connections between light emission and shot noise. Light emission is often seen at energies larger than \(eV\), implying that there can be multi-electron processes at work. In planar tunneling structures, light emission can happen at considerably higher energies, and it really looks there like there is radiation due to the nonequilibrium electronic distribution. It's a fascinating area - lots of rich physics.
Wednesday, May 08, 2019
Updated: CM/nano primer - aggregated posts
Here is an updated and slightly reorganized (since 2017) listing of posts I've made over the years trying to explain some key concepts in condensed matter and nanoscale physics. Please feel free to suggest topics that should be added.
What is temperature?
What is chemical potential?
What is mass?
Fundamental units and condensed matter
What are quasiparticles?
What is effective mass?
What is a phonon?
What is a plasmon?
What are magnons?
What are skyrmions?
What are excitons?
What is quantum coherence?
What are universal conductance fluctuations?
What is a quantum point contact? What is quantized conductance?
What is tunneling?
What are steric interactions?
(effectively) What is the normal force?
(effectively) What is jamming?
(effectively) What is capillary action?
What are liquid crystals?
What is a phase of matter?
About phase transitions....
(effectively) What is mean-field theory?
About reciprocal space.... About spatial periodicity.
What is band theory?
What is a "valley"?
What is a metal?
What is a bad metal? What is a strange metal?
What is a Tomonaga-Luttinger liquid?
What is a crystal?
What is a time crystal?
What is spin-orbit coupling?
What is Berry phase?
What is (dielectric) polarization?
About graphene, and more about graphene
Why twisting materials is interesting
About noise, part one, part two (thermal noise), part three (shot noise), part four (1/f noise)
What is inelastic electron tunneling spectroscopy?
What is demagnetization cooling?
About memristors....
What is thermoelectricity?
What are "hot" electrons?
What is a functional? (see also this)
What is density functional theory? Part 2 Part 3
What are the Kramers-Kronig relations?
What is a metamaterial?
What is a metasurface?
What is the Casimir effect?
About exponential decay laws
About hybridization
About Fermi's Golden Rule
What is temperature?
What is chemical potential?
What is mass?
Fundamental units and condensed matter
What are quasiparticles?
What is effective mass?
What is a phonon?
What is a plasmon?
What are magnons?
What are skyrmions?
What are excitons?
What is quantum coherence?
What are universal conductance fluctuations?
What is a quantum point contact? What is quantized conductance?
What is tunneling?
What are steric interactions?
(effectively) What is the normal force?
(effectively) What is jamming?
(effectively) What is capillary action?
What are liquid crystals?
What is a phase of matter?
About phase transitions....
(effectively) What is mean-field theory?
About reciprocal space.... About spatial periodicity.
What is band theory?
What is a "valley"?
What is a metal?
What is a bad metal? What is a strange metal?
What is a Tomonaga-Luttinger liquid?
What is a crystal?
What is a time crystal?
What is spin-orbit coupling?
What is Berry phase?
What is (dielectric) polarization?
About graphene, and more about graphene
Why twisting materials is interesting
About noise, part one, part two (thermal noise), part three (shot noise), part four (1/f noise)
What is inelastic electron tunneling spectroscopy?
What is demagnetization cooling?
About memristors....
What is thermoelectricity?
What are "hot" electrons?
What is a functional? (see also this)
What is density functional theory? Part 2 Part 3
What are the Kramers-Kronig relations?
What is a metamaterial?
What is a metasurface?
What is the Casimir effect?
About exponential decay laws
About hybridization
About Fermi's Golden Rule