Then again, the whole thing looks suspiciously like a view through a high - powered
quantum microscope.
Its times like this, that I wish I knew someone with
a quantum microscope to really dive deep into the matter.
Her team decided to make a picture using a technique dreamed up 30 years ago that can be thought of as
a quantum microscope.
Not exact matches
A
quantum - style
microscope has imaged the hydrogen atom's wave function, the equation that determines its electrons» positions — and in turn the atom's properties.
This is thus the first time that the full
quantum nature of electronic transport in the scanning tunneling
microscope has shown itself.
An overlay of the
microscope image of a
quantum LED device and the photoluminescence image from the active area of WSe2.
Once the sample is removed, it can be examined under a
microscope to detect
quantum dots containing a single magnetic atom at the center.
Purdue University doctoral student Yang Xu, lead author of a new research paper on «topological insulators,» an emerging class of materials that could make possible «spintronic» devices and practical
quantum computers far more powerful than today's technologies, is shown here inspecting devices made from topological insulators under a
microscope before electrical measurements.
The researchers use a
quantum gas
microscope to image the atoms, which have been cooled to a fraction of a degree above absolute zero and trapped in place using lasers.
Then something special happens: electrons and light start to move in concert, unveiling their
quantum nature at such large scale that it could observed with a special type of
microscope.
Researchers have discovered that dense ensembles of
quantum spins can be created in diamond with high resolution using an electron
microscopes, paving the way for enhanced sensors and resources for
quantum technologies.
An electron
microscope image shows flake - like nanoplatelets made of graphene
quantum dots drawn from coal and graphene oxide sheets, modified with boron and nitrogen.
False - colour electron
microscope image of the silicon nanoelectronic device which contains the phosphorus atom used for the demonstration of
quantum entanglement.
Under the
microscope, the unique single - spin
quantum sensor resembles a toothbrush.
A magnetized scanning tunneling
microscope tip was used to probe the spin property of the
quantum wave function of the Majorana fermion at the end of a chain of iron atoms on the surface of a superconductor made of lead.
The team observed the
quantum dots using a single - molecule absorption scanning tunneling
microscope fitted with a needle sharpened to a thickness of only one atom at its tip.
«But I am sure the Naval Research Laboratory has a gift shop that sells scanning tunneling
microscopes so I can create my own
quantum dots with identical, deterministic...