Physics
Team produces best image yet of atoms moving real time
April 17, 2013 4:59 pm | News | Comments
Using an ultra-bright electron source, scientists at the University of Toronto have recorded atomic motions in real time, offering a glimpse into the very essence of chemistry and biology at the atomic level. Their recording is a direct observation of a transition state in which atoms undergo chemical transformation into new structures with new properties.
Competition in the quantum world
May 20, 2013 9:24 am | News | Comments
Using a new tool called a quantum simulator—based on a small-scale quantum computer—...
Record-breaking high-energy particles detected by telescope buried in Antarctic
May 17, 2013 12:26 pm | News | Comments
A massive telescope buried in the Antarctic ice has detected 28 extremely high-energy...
Physicists create world’s smallest drops
May 17, 2013 12:15 pm | News | Comments
Results of a recent experiment conducted at the Large Hadron Collider may have...
Soft matter offers way to study arrangement of ordered materials
May 21, 2013 7:46 am | News | CommentsA fried breakfast food popular in Spain provided the inspiration for the development of doughnut-shaped droplets that may provide scientists with a new approach for studying fundamental issues in physics, mathematics, and materials. The doughnut-shaped droplets, a shape known as toroidal, are formed from two dissimilar liquids using a simple rotating stage and an injection needle.
Study: Earth's iron core is surprisingly weak
May 17, 2013 10:54 am | News | CommentsThe massive ball of iron sitting at the center of Earth is not quite as "rock-solid" as has been thought, say two Stanford University mineral physicists. By conducting experiments that simulate the immense pressures deep in the planet's interior, the researchers determined that iron in Earth's inner core is only about 40% as strong as previous studies estimated.
Stacking 2D materials produces surprising results
May 17, 2013 7:46 am | by David L. Chandler, MIT News Office | News | CommentsGraphene has dazzled scientists ever since its discovery more than a decade ago. But one long-sought goal has proved elusive: how to engineer into graphene a property called a band gap, which would be necessary to use the material to make transistors and other electronic devices. New findings by Massachusetts Institute of Technology researchers are a major step toward making graphene with this coveted property.
Flowers self-assemble in a beaker
May 16, 2013 2:46 pm | News | CommentsWith the hand of nature trained on a beaker of chemical fluid, the most delicate flower structures have been formed in a Harvard University laboratory—and not at the scale of inches, but microns. These minuscule sculptures, curved and delicate, don't resemble the cubic or jagged forms normally associated with crystals, though that's what they are. Rather, fields of flowers seem to bloom from the surface of a submerged glass slide.
Graphene joins the race to redefine the ampere
May 13, 2013 10:00 am | News | CommentsA new joint innovation by the National Physical Laboratory and the University of Cambridge could pave the way for redefining the ampere in terms of fundamental constants of physics. The world's first graphene single-electron pump provides the speed of electron flow needed to create a new standard for electrical current based on electron charge.
Feynman's double-slit experiment preserved
May 13, 2013 8:05 am | News | CommentsDescribed as the "most beautiful experiment in physics," Richard Feynman emphasized how the diffraction of individual particles at a grating is an unambiguous demonstration of wave-particle duality and contrary to classical physics. A research team recently used carefully made fluorescent molecules and nanometric detection accuracy to provide clear and tangible evidence of the quantum behavior of large molecules in real time.
Mathematics of popping bubbles in a foam
May 10, 2013 7:42 am | News | CommentsBubble baths and soapy dishwater and the refreshing head on a beer: These are foams, beautiful yet ephemeral as the bubbles pop one by one. Now, a team of researchers has described mathematically the successive stages in the complex evolution and disappearance of foamy bubbles, a feat that could help in modeling industrial processes in which liquids mix or in the formation of solid foams such as those used to cushion bicycle helmets.
Exotic atoms hold clues to unsolved physics puzzle
May 9, 2013 7:47 am | News | CommentsAn international team of physicists has found the first direct evidence of pear-shaped nuclei in exotic atoms. The findings could advance the search for a new fundamental force in nature that could explain why the Big Bang created more matter than antimatter—a pivotal imbalance in the history of everything.
Scientists find new magic in magnetic material
May 8, 2013 4:04 pm | News | CommentsFrom powerful computers to super-sensitive medical and environmental detectors that are faster, smaller, and use less energy—yes, we want them, but how do we get them? In research that is helping to lay the groundwork for the electronics of the future, University of Delaware scientists have confirmed the presence of a magnetic field generated by electrons which scientists had theorized existed, but that had never been proven until now.
Explaining energy shifts in optical tweezers
May 8, 2013 12:26 pm | News | CommentsPhysicists working with optical tweezers have conducted work to provide an all-in-one guide to help calculate the effect the use of these tools has on the energy levels of atoms under study. This effect can change the frequency at which atoms emit or absorb light and microwave radiation and skew results; the new findings should help physicists foresee effects on future experiments.
Quantum optics demonstrated with microwaves
May 8, 2013 12:21 pm | News | CommentsPhysicists in Switzerland have demonstrated one of the quintessential effects of quantum optics—known as the Hong-Ou-Mandel effect—with microwaves, which have a frequency that 100,000 times lower than that of visible light. The experiment takes quantum optics into a new frequency regime and could eventually lead to new technological applications.
Research makes advance in nanotech gene sequencing technique
May 8, 2013 8:09 am | News | CommentsThe allure of personalized medicine has made new, more efficient ways of sequencing genes a top research priority. One promising technique involves reading DNA bases using changes in electrical current as they are threaded through a nanoscopic hole. Now, a team led by University of Pennsylvania physicists has used solid-state nanopores to differentiate single-stranded DNA molecules containing sequences of a single repeating base.
Observations of massive neutron star confirm relativity theory
May 1, 2013 12:01 pm | News | CommentsAn international research team led by astronomers from the Max Planck Institute for Radio Astronomy used a collection of large radio and optical telescopes to investigate in detail a pulsar that weighs twice as much as the sun. This neutron star, the most massive known to date, has provided new insights into the emission of gravitational radiation and serves as an interstellar laboratory for general relativity in extreme conditions.
Research find quantum phenomena can have effect on molecular level
April 29, 2013 10:42 am | News | CommentsUsing uniquely sensitive experimental techniques, scientists have found that laws of quantum physics—believed primarily to influence at only sub-atomic levels—can actually impact on a molecular level. The study shows that movement of the ring-like molecule pyrrole over a metal surface runs counter to the classical physics that govern our everyday world.
Researchers design nanometer-scale material that can speed up, squeeze light
April 29, 2013 10:03 am | News | CommentsIn a process comparable to squeezing an elephant through a pinhole, researchers at Missouri University of Science and Technology have designed a way to engineer atoms capable of funneling light through ultrasmall channels. Their research is the latest in a series of recent findings related to how light and matter interact at the atomic scale.
Physicists, biologists unite to expose how cancer spreads
April 29, 2013 8:03 am | News | CommentsCancer cells that can break out of a tumor and invade other organs are more aggressive and nimble than nonmalignant cells, according to a new multi-institutional nationwide study. These cells exert greater force on their environment and can more easily maneuver small spaces.
Understanding the turbulence in plasmas
April 29, 2013 7:49 am | by David L. Chandler, MIT News Office | News | CommentsOne simple phenomenon explains why practical, self-sustaining fusion reactions have proved difficult to achieve: Turbulence in the superhot, electrically charged gas, called plasma, that circulates inside a fusion reactor can cause the plasma to lose much of its heat. This prevents the plasma from reaching the temperatures needed to overcome the electrical repulsion between atomic nuclei. Until now.
What did Alexander Graham Bell's voice sound like?
April 26, 2013 8:34 am | News | CommentsLawrence Berkeley National Laboratory’s sound-restoration experts have done it again. They’ve helped to digitally recover a 128-year-old recording of Alexander Graham Bell’s voice, enabling people to hear the famed inventor speak for the first time. The recording ends with Bell saying “in witness whereof, hear my voice, Alexander Graham Bell.”
Cause of LED efficiency droop finally revealed
April 23, 2013 9:56 am | News | CommentsResearchers at University of California, Santa Barbara in collaboration with colleagues at the École Polytechnique in France, have conclusively identified Auger recombination as the mechanism that causes light-emitting diodes (LEDs) to be less efficient at high drive currents.
Physicists find right (and left) solution for on-chip optics
April 23, 2013 7:42 am | News | CommentsA Harvard University-led team of researchers has created a new type of nanoscale device that converts an optical signal into waves that travel along a metal surface. Significantly, the device can recognize specific kinds of polarized light and accordingly send the signal in one direction or another.
NASA sees distant planets that seem ideal for life
April 19, 2013 12:33 pm | by Seth Borenstein, AP Science Writer | News | CommentsThe planet-hunting Kepler telescope has discovered two planets that seem like ideal places for some sort of life to flourish. According to scientists working with the NASA telescope, they are just the right size and in just the right place near their star. The discoveries, published online Thursday, mark a milestone in the search for planets where life could exist.
New solar cell coating could boost efficiency
April 18, 2013 2:44 pm | by David L. Chandler, MIT News Office | News | CommentsThroughout decades of research on solar cells, one formula has been considered an absolute limit to the efficiency of such devices in converting sunlight into electricity: Called the Shockley-Queisser efficiency limit, it posits that the ultimate conversion efficiency can never exceed 34% for a single optimized semiconductor junction. Now, researchers have shown that there is a way to blow past that limit.
Discovery paves the way for ultra-fast high-resolution imaging in real time
April 18, 2013 10:51 am | News | CommentsScientists in Australia have recently demonstrated that ultra-short durations of electron bunches generated from laser-cooled atoms can be both very cold and ultra-fast. The low temperature permit sharp images, and the electron pulse duration has a similar effect to shutter speed, potentially allowing researchers to observe critical but quick dynamic processes, such as the picosecond duration of protein folding.
Device launches plasma, holds it together through the air
April 16, 2013 10:12 pm | News | CommentsA University of Missouri engineer has built a system that is able to launch a ring of plasma as far as two feet. Plasma is commonly created in the laboratory using powerful electromagnets, but previous efforts to hold the super-hot material through air have been unsuccessful. The new device does this by changing how the magnetic field around the plasma is arranged.
Cryogenic dark matter search adds new intrigue with latest result
April 16, 2013 10:21 am | News | CommentsPhysicists operating an experiment located half a mile underground in Minnesota reported this weekend that they have found possible hints of dark-matter particles. The Cryogenic Dark Matter Search experiment has detected three events with the characteristics expected of dark matter particles.
