Follow the flow: Graphs showing the smooth flow of photocurrent streamlines around a microscopic structure shaped like an aeroplane wing. This electrofoil (top left) makes it possible to contort, compress and expand photocurrent streamlines in the same way that aeroplane wings (shown in silhouettes at right) contort, compress and expand the flow of air. (Courtesy:… Continue reading Electrons caught going around the bend
Category: Allgemein
Tube map of famous engineers, physics of Jackson Pollock, George Washington’s imperial love
Perhaps the most iconic map ever is Harry Beck’s depiction of the London Underground, which first appeared in the 1930s. Now, Transport for London (TfL) – which runs the Underground – has partnered with the Royal Academy of Engineering to create a Tube-themed map that depicts famous people in the history of engineering. Created to… Continue reading Tube map of famous engineers, physics of Jackson Pollock, George Washington’s imperial love
Celebrating the physics of the cosmos and 20 years of JCAP
Some of the biggest mysteries of physics – including the nature of dark matter and dark energy, and the origin of the universe – are in the sights of cosmologists and astroparticle physicists. In this episode of the Physics World Weekly podcast I am in conversation with three editorial board members of the Journal of… Continue reading Celebrating the physics of the cosmos and 20 years of JCAP
The brain may learn about the world the same way some computational models do
<p>To make our way through the world, our brain must develop an intuitive understanding of the physical world around us, which we then use to interpret sensory information coming into the brain.</p>nn<p>How does the brain develop that intuitive understanding? Many scientists believe that it may use a process similar to what’s known as “self-supervised learning.”… Continue reading The brain may learn about the world the same way some computational models do
Three-qubit computing platform is made from electron spins
Multiple qubit platform: In this diagram, an STM tip coated with iron (top) operates the sensor spin qubit. Also shown are the remote spin qubits, which are aligned by the magnetic fields of nearby iron atoms. (Courtesy: Institute for Basic Science) n A quantum computing platform that is capable of the simultaneous operation of multiple… Continue reading Three-qubit computing platform is made from electron spins
What can postage stamps tell us about the history of nuclear physics?
In December 1942 US president Franklin D Roosevelt signed the Manhattan Project into existence. A scientific endeavour that culminated in the dropping of the Little Boy and Fat Man bombs three years later, the project was – for better or worse – the most significant development in the long history of nuclear physics. What is… Continue reading What can postage stamps tell us about the history of nuclear physics?
Pioneering the physics of adaptation, writing the history of quantum computing
n This episode of the Physics World Weekly podcast features two pioneers in their fields. n Margaret Gardel is a biophysicist who is setting up a new National Science Foundation Physics Frontier Center at the University of Chicago. The Center for Living Systems will focus on the physics of adaptation, a new field that looks… Continue reading Pioneering the physics of adaptation, writing the history of quantum computing
Bright flash leads astronomers to a heavy-metal factory 900 million light years away
<p>An extraordinary burst of high-energy light in the sky has pointed astronomers to a pair of metal-forging neutron stars 900 million light years from Earth.</p>nn<p>In a <a href=”https://www.nature.com/articles/s41586-023-06759-1″ target=”_blank”>study appearing today</a> in <em>Nature</em>, an international team of astronomers, including scientists at MIT, reports the detection of an extremely bright gamma-ray burst (GRB), which is the… Continue reading Bright flash leads astronomers to a heavy-metal factory 900 million light years away
Electrons accelerated by firing lasers into nanophotonic cavities
Laser-driven particle accelerators on silicon chips have been created by two independent research groups. With further improvements, such dielectric laser accelerators could be used in medicine and industry – and could even find application in high-energy particle physics experiments. nn Accelerating electrons to high energies is normally done over long distances at large and expensive… Continue reading Electrons accelerated by firing lasers into nanophotonic cavities
Proton therapy on an upward trajectory while FLASH treatment schemes get ready to shine
While proton therapy has well and truly arrived as a mainstream treatment option in radiation oncology – there are currently 42 operational proton facilities in the US and a further 13 centres under construction – it’s evident that the clinical innovation is only just getting started when it comes to at-scale deployment of protons for… Continue reading Proton therapy on an upward trajectory while FLASH treatment schemes get ready to shine