Bismuth, a puzzling material in quantum research, has now revealed a surprising twist. Kobe University scientists discovered that its surface properties can obscure its true nature, challenging a foundational assumption in topological material…
Category: 4. Physics
-
Puzzling Material Reveals Quantum Twist: Scientists Have Uncovered the True Nature of Bismuth
-
Atomic Eavesdropping: How Carbyne Talks Through Quantum Vibrations
Researchers revealed a bizarre quantum link between carbyne and carbon nanotubes—two materials that shouldn’t “talk” but somehow do. The discovery could reshape how we design ultra-sensitive nano-devices. To design the next generation of smart…
Continue Reading
-
MIT’s Chilling Experiment That Could Prove Gravity Is Quantum
MIT researchers have found a bold new way to approach one of science’s biggest mysteries: is gravity truly a quantum force? By chilling a tiny mirror to near absolute zero using lasers — a method traditionally used in atomic physics —…
Continue Reading
-
Magnetohydrodynamic Maxwell hybrid nanofluid flow and heat transfer over a moving needle in porous media
This section presents the graphical and tabular results of the key properties under investigation. The graphical and tabular results for velocity \(\:f{\prime\:}\left(\eta\:\right)\), temperature field\(\:\:\theta\:\left(\eta\:\right)\),…
Continue Reading
-
Possible nonstellar explanation for the unexpected brightness of the earliest galaxies observed by the James Webb Space Telescope
Change of trajectory homotopy class at passing the photon sphere rim
Changes in homotopy properties of multiparticle trajectories in local manifolds approaching the event horizon of a black hole translate into quantum phenomena experienced by any…
Continue Reading
-
Gap solitons in moiré optical lattice with quartic dispersion
Kivshar, Y. S. & Agrawal, G. P. Optical solitons: from fibers to photonic crystals Academic press, (2003).
Christodoulides, D. N., Lederer, F. & Silberberg, Y. Discretizing light behaviour in linear and nonlinear waveguide lattices. Nature 424,…
Continue Reading
-
A tight binding study of electron transport in notched graphene nanoribbons
Figure 1 depicts the TB atomistic models for selected straight and edge-notched ZGNRs attached, at both ends, to metallic ZGNR leads for conductance calculations. In Fig. 1A,B the atomic structures of typical straight 2ZGNR (A) and 5ZGNR (B) are…
Continue Reading
-
Cryogenic microwave link for quantum local area networks
Microwave cryogenic link
Our microwave cryogenic link consists of two quantum nodes, Alice and Bob, connected by a cold node, Eve. The cryogenic link is designed and assembled in collaboration with Oxford Instruments NanoScience (OINS). Alice is a…
Continue Reading
-
Magnetically controlled vortex dynamics in a ferromagnetic superconductor
Magnetic characterisation
Magnetisation data for three single crystals of EuFe2(As1−xPx)2 are shown in Fig. 1c, d. Samples S1 and SD both have a doping level close to x ≈ 0.21 and exhibit identical superconducting onset and ferromagnetic…
Continue Reading
-
Atmospheric pressure plasma treatment increases the antioxidant capacity of the serum in vitro
In our prior research, transnasal APP inhalation protects the brain from ischemic injuries, but it remains unknown how the plasma acts on the area of cerebral ischemic injury. The nasal mucosa has an adequate blood supply and is distributed with…
Continue Reading