Interesting Engineering on MSN
World’s first terahertz microscope shows long-hidden quantum jiggle in superconductors
MIT physicists have built a new microscope that can see quantum motion inside superconductors ...
With the terahertz scope, the team observed a frictionless “superfluid” of superconducting electrons that were collectively ...
Interesting Engineering on MSN
Light breaks its own limit by 100,000× to image matter at the scale of atoms
For over a century, light has both helped and limited our view of the ...
Morning Overview on MSN
Atoms are 0.1 nm across, and it took 60 years to finally see them clearly
Atoms measure roughly 0.1 nanometers across, a scale so small that scientists spent more than six decades developing ...
Artists present works made with paper pulp, including several large sculptural installations, in this Manchester exhibition ...
Mouse primary motor and somatosensory cortices contain detailed information about the many time-varying arm and paw joint angles during reaching and grasping, implying a 'low-level' role in ...
By squeezing terahertz light beyond its usual limits, researchers have exposed hidden quantum "jiggles" inside a ...
The implications of the breakthrough could ripple through multiple industries. A better understanding of how superconductivity behaves at quantum scales could accelerate the development of ...
9don MSN
A new microscope for the quantum age: Single nanoscale scan measures four key material properties
Physicists in Leiden have built a microscope that can measure no fewer than four key properties of a material in a single scan, all with nanoscale precision. The instrument can even examine complete ...
AZoQuantum on MSN
Leiden’s Microscope Revolutionizes Quantum Chip Testing
Physicists in Leiden have developed a microscope that can assess four important features of a material in a single scan, all ...
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