Quantum Physics

1902 Submissions

[80] viXra:1902.0507 [pdf] submitted on 2019-02-28 06:06:26

Immunizing Quantum Computers

Authors: George Rajna
Comments: 79 Pages.

The research group of Jonathan Home, professor at the Institute for Quantum Electronics at ETH Zurich, has now realised such a qubit encoded in an oscillator. [46] "It's known that as the temperature lowers, the superconductivity is enhanced," Chen said. "The fact that much more supercurrent flowed at even lower temperatures for our device was evidence that it is flowing around these protective surfaces." [45]
Category: Quantum Physics

[79] viXra:1902.0487 [pdf] submitted on 2019-02-27 08:19:46

Snapshot Hear the Quantum World

Authors: George Rajna
Comments: 71 Pages.

Observing these counterintuitive happenings in larger objects has always been difficult, but University of Queensland physicists – part of an Austrian/UK research team – have created a new technique to make the observation of quantum movement much easier. [42] Their work, published in the journal Optica, could have implications for the future of information security, bio-medical science and other fields of study where sophisticated advances are increasingly relying on the ability to incorporate and measure the properties of quantum systems. [41]
Category: Quantum Physics

[78] viXra:1902.0474 [pdf] submitted on 2019-02-27 12:48:24

Universal Quantum Entangler

Authors: George Rajna
Comments: 78 Pages.

Now Yale researchers have developed a "universal entangler" that can link a variety of encoded particles on demand. [46] "It's known that as the temperature lowers, the superconductivity is enhanced," Chen said. "The fact that much more supercurrent flowed at even lower temperatures for our device was evidence that it is flowing around these protective surfaces." [45]
Category: Quantum Physics

[77] viXra:1902.0462 [pdf] replaced on 2019-06-15 09:53:02

Further Proofs for the 1-Photon Path Entanglement Communications Scheme

Authors: Remi Cornwall
Comments: 8 Pages. Maths sorted out, new proof put in about faux rank 3 systems made from rank 2 components.

The author had previously set out devices to communicate over space-like intervals, with a full proof for the 2 photon device and only a partial proof for the 1-photon device. The 2-photon device exploits entangled pairs; the 1-photon device utilises path-entanglement. The 1-photon device is fully analysed, then similarities (and differences) are drawn to the 2-photon device to show the holes in the No-communications Theorem: the creation operators representing the sum of paths through the device can be mapped outside the device and quantum state reduction/measurement is a space-like operation. A common misconception on faux rank-3 systems made from rank-2 components is elucidated, avoiding the criticism and null result obtained by naively taking the partial trace.
Category: Quantum Physics

[76] viXra:1902.0460 [pdf] submitted on 2019-02-26 11:58:29

Demystifying the Quantum World

Authors: George Rajna
Comments: 70 Pages.

Their work, published in the journal Optica, could have implications for the future of information security, bio-medical science and other fields of study where sophisticated advances are increasingly relying on the ability to incorporate and measure the properties of quantum systems. [41] For the first time, the team created quantum-correlated pairs made up of one visible and one near-infrared photon using chip-based optical components that can be mass-produced. [40]
Category: Quantum Physics

[75] viXra:1902.0457 [pdf] submitted on 2019-02-26 13:15:43

Immunizing Quantum Bits

Authors: George Rajna
Comments: 77 Pages.

"It's known that as the temperature lowers, the superconductivity is enhanced," Chen said. "The fact that much more supercurrent flowed at even lower temperatures for our device was evidence that it is flowing around these protective surfaces." [45] Reporting today in the journal Nature, a team of physicists and engineers led by University of Texas at Austin physics professor Xiaoqin Elaine Li report they have created a material with light-emitting properties that might enable hack-proof communications, guaranteed by the laws of quantum mechanics. [44]
Category: Quantum Physics

[74] viXra:1902.0455 [pdf] replaced on 2019-03-02 06:12:35

Open Letter To Professor Richard David Gill, PhD

Authors: Ilija Barukčić
Comments: 19 pages. Copyright © 2019 by Ilija Barukčić, Jever, Germany. All rights reserved. Published 15.3.2019 by Journal of Drug Delivery and Therapeutics, 9(2), 125-143. https://doi.org/10.22270/jddt.v9i2.2389

Aristotle’s law of contradiction and Einstein’s special theory of relativity ABASTRACT Objective: The aim of this study is to re-evaluate the relationship between Aristotle’s law of contradiction and Einstein’s special theory of relativity. Methods: In order to clarify the relationship between Aristotle’s law of contradiction and Einstein’s special theory of relativity, several different approaches were chosen and appropriate theorems were developed. Results. It was possible to provide the proof that Aristotle’s law of contradiction is observer dependent but does not contradict Einstein’s special theory of relativity. Furthermore, a derivation of Aristotle’s law of contradiction from the identity law (principium identitatis) was provided. Conclusions Aristotle’s law of contradiction and Einstein’s special theory of relativity are compatible with each other. Keywords: principium identitatis, principium contradictionis, causality, Einstein’s special theory of relativity
Category: Quantum Physics

[73] viXra:1902.0453 [pdf] submitted on 2019-02-26 16:26:14

Unit at the Planck units

Authors: Francis MALEVAL
Comments: 2 Pages.

Planck units are defined from fundamental physical constants (we exclude in this study the physico-chemical Boltzmann constant). If we put the charge, not originally defined by Planck, at the center of this system, this interaction sits on a limit as would be a mathematical structure taking form on the surface of a mirror concept][reality, QM][GR. The coupling constant alpha, intrinsic to the charge, behaves like a metonymy of a part for the whole and, as a causet, generates on space-time an interlacing of dimensioned constants, iterated under a geometric sequence. “A very simple structure is not incompatible with the inexhaustible character of the information contained as well in physics as in mathematics”. A.Connes
Category: Quantum Physics

[72] viXra:1902.0443 [pdf] submitted on 2019-02-25 06:48:51

Optical Quantum Micro-Combs

Authors: George Rajna
Comments: 43 Pages.

Compact quantum devices could be incorporated into laptops and mobile phones, thanks in part to small devices called quantum optical micro-combs. [31] Taking their name from an intricate Japanese basket pattern, kagome magnets are thought to have electronic properties that could be valuable for future quantum devices and applications. [30] A team of Cambridge researchers have found a way to control the sea of nuclei in semiconductor quantum dots so they can operate as a quantum memory device. [29] Researchers successfully integrated the systems—donor atoms and quantum dots. [28] A team of researchers including U of A engineering and physics faculty has developed a new method of detecting single photons, or light particles, using quantum dots. [27]
Category: Quantum Physics

[71] viXra:1902.0430 [pdf] submitted on 2019-02-26 00:33:42

On the Usefulness of Philosophical Terminological Rigorousness in Quantum Mechanics

Authors: A. V. Grigorov
Comments: 2 Pages.

A lot of the confusion with regards to the meaning of Quantum Mechanics arises from improper use of language (in the philosophical sense). The following brief discussion demonstrates how this could be avoided, and the benefits of using more philosophically rigorous language and concepts.
Category: Quantum Physics

[70] viXra:1902.0428 [pdf] submitted on 2019-02-26 01:54:26

Quantum Entangled Photons of Colors

Authors: George Rajna
Comments: 67 Pages.

For the first time, the team created quantum-correlated pairs made up of one visible and one near-infrared photon using chip-based optical components that can be mass-produced. [40] Now scientists at MIT and Harvard University have for the first time studied this unique, theoretical lens from a quantum mechanical perspective, to see how individual atoms and photons may behave within the lens. [39]
Category: Quantum Physics

[69] viXra:1902.0426 [pdf] submitted on 2019-02-26 04:17:17

Faster Read Quantum Memory

Authors: George Rajna
Comments: 45 Pages.

Joni Ikonen, a Ph.D. student at Aalto University, has developed a new method that helps do just that. Until now, the method used to read information from a qubit was to apply a short microwave pulse to the superconducting circuit containing the qubit and then measure the reflected microwave. [32] Compact quantum devices could be incorporated into laptops and mobile phones, thanks in part to small devices called quantum optical micro-combs. [31]
Category: Quantum Physics

[68] viXra:1902.0425 [pdf] submitted on 2019-02-26 04:35:05

Laser-Driven Electron Acceleration

Authors: George Rajna
Comments: 66 Pages.

Combining a first laser pulse to heat up and "drill" through a plasma, and another to accelerate electrons to incredibly high energies in just tens of centimeters, scientists have nearly doubled the previous record for laser-driven particle acceleration. [39] Femtosecond lasers are capable of processing any solid material with high quality and high precision using their ultrafast and ultra-intense characteristics. [38] To create the flying microlaser, the researchers launched laser light into a water-filled hollow core fiber to optically trap the microparticle. Like the materials used to make traditional lasers, the microparticle incorporates a gain medium. [37]
Category: Quantum Physics

[67] viXra:1902.0424 [pdf] submitted on 2019-02-26 04:51:10

2-D Materials Trap Particles

Authors: George Rajna
Comments: 75 Pages.

Future technologies based on the principles of quantum mechanics could revolutionize information technology. But to realize the devices of tomorrow, today's physicists must develop precise and reliable platforms to trap and manipulate quantum-mechanical particles. [43] Researchers at The University of Manchester in the UK, led by Dr. Artem Mishchenko, Prof Volodya Fal'ko and Prof Andre Geim, have discovered the quantum Hall effect in bulk graphite—a layered crystal consisting of stacked graphene layers. [42]
Category: Quantum Physics

[66] viXra:1902.0415 [pdf] submitted on 2019-02-24 14:32:57

Hybridization Theory of L. Pauling, Chemical Bond and Quantum Mechanics.

Authors: Bezverkhniy Volodymyr Dmytrovych, Bezverkhniy Vitaliy Volodymyrovich.
Comments: 10 Pages.

The theory of hybridization of atomic orbitals of L. Pauling is analyzed using the principle of quantum superposition. It is shown that the principle of quantum superposition, and therefore quantum mechanics as a whole, is in insurmountable contradiction with the theory of hybridization of atomic orbitals. Since the concept of σ- and π-bonds automatically follows from the theory of hybridization, the classical chemical description of single, double and triple bonds (based on σ- and π-bonds) is also in insurmountable contradiction with the principle of quantum superposition.
Category: Quantum Physics

[65] viXra:1902.0387 [pdf] submitted on 2019-02-24 04:56:34

Quantum States and Energy Levels in Hydrogen Atom

Authors: Daniele Sasso
Comments: 17 Pages.

In this paper we will calculate energy levels of electron relative to hydrogen atom making use of the four quantum numbers of the deterministic quantum model. Calculations prove in a few situations quantum states with different quantum numbers can have the same value of total energy and a few sub-levels of a more external level can precede sub-levels of more internal levels. Calculations prove also the electron in the fundamental state 1s1, in order to jump to the state 5q10 needs a photon with energy E=13.08 eV= 20.93۰10-19 J, that is in the ultraviolet band.
Category: Quantum Physics

[64] viXra:1902.0383 [pdf] submitted on 2019-02-22 10:16:58

Magnetization Reversal by Electric Field

Authors: George Rajna
Comments: 48 Pages.

Scientists at Tokyo Institute of Technology have achieved magnetization reversal in cobalt-substituted bismuth ferrite by applying an electric field. [31] A team of scientists has discovered the first robust example of a new type of magnet—one that holds promise for enhancing the performance of data storage technologies. [30] Single-molecule magnets (SMMs) have been attracting a lot of attention recently. This is because of the increased demand for faster, longer-lasting and lower-energy IT systems, and the need for higher data storage capacity. [29]
Category: Quantum Physics

[63] viXra:1902.0382 [pdf] submitted on 2019-02-22 10:46:24

Spatiotemporal Signal Networks

Authors: George Rajna
Comments: 52 Pages.

Past studies have found that a variety of complex networks, from biological systems to social media networks, can exhibit universal topological characteristics. [32] Scientists at Tokyo Institute of Technology have achieved magnetization reversal in cobalt-substituted bismuth ferrite by applying an electric field. [31] A team of scientists has discovered the first robust example of a new type of magnet—one that holds promise for enhancing the performance of data storage technologies. [30] Single-molecule magnets (SMMs) have been attracting a lot of attention recently. This is because of the increased demand for faster, longer-lasting and lower-energy IT systems, and the need for higher data storage capacity. [29]
Category: Quantum Physics

[62] viXra:1902.0377 [pdf] submitted on 2019-02-23 04:00:18

Topological Quantum Magnet

Authors: George Rajna
Comments: 43 Pages.

Taking their name from an intricate Japanese basket pattern, kagome magnets are thought to have electronic properties that could be valuable for future quantum devices and applications. [30] A team of Cambridge researchers have found a way to control the sea of nuclei in semiconductor quantum dots so they can operate as a quantum memory device. [29] Researchers successfully integrated the systems—donor atoms and quantum dots. [28] A team of researchers including U of A engineering and physics faculty has developed a new method of detecting single photons, or light particles, using quantum dots. [27]
Category: Quantum Physics

[61] viXra:1902.0372 [pdf] submitted on 2019-02-23 05:14:04

Deep Ultraviolet LEDs

Authors: George Rajna
Comments: 40 Pages.

Deep ultraviolet light-emitting diodes (DUV-LEDs) made from aluminium gallium nitride (AlGaN) efficiently transfer electrical energy to optical energy due to the growth of one of its bottom layers in a step-like fashion. [25] A variety of laser-based techniques can be used to produce colorful artwork on metals. [24] An international team of researchers led out of Macquarie University has demonstrated a new approach for converting ordinary laser light into genuine quantum light. [23]
Category: Quantum Physics

[60] viXra:1902.0355 [pdf] submitted on 2019-02-22 02:32:47

Quantum Dances of Semiconductor

Authors: George Rajna
Comments: 40 Pages.

A team of Cambridge researchers have found a way to control the sea of nuclei in semiconductor quantum dots so they can operate as a quantum memory device. [29] Researchers successfully integrated the systems—donor atoms and quantum dots. [28] A team of researchers including U of A engineering and physics faculty has developed a new method of detecting single photons, or light particles, using quantum dots. [27] Recent research from Kumamoto University in Japan has revealed that polyoxometalates (POMs), typically used for catalysis, electrochemistry, and photochemistry, may also be used in a technique for analyzing quantum dot (QD) photoluminescence (PL) emission mechanisms. [26]
Category: Quantum Physics

[59] viXra:1902.0353 [pdf] submitted on 2019-02-22 03:07:00

Coldest Quantum Gas Molecules

Authors: George Rajna
Comments: 24 Pages.

JILA researchers have made a long-lived, record-cold gas of molecules that follow the wave patterns of quantum mechanics instead of the strictly particle nature of ordinary classical physics. [15] Physicists at ETH Zurich have developed an experimental platform for studying the complex phases of a quantum gas characterized by two order parameters. [14] Now, a team at JQI led by postdoctoral researcher Seiji Sugawa and JQI Fellow Ian Spielman have succeeded in emulating a Yang monopole with an ultracold gas of rubidium atoms. [13]
Category: Quantum Physics

[58] viXra:1902.0352 [pdf] submitted on 2019-02-22 03:29:14

Quantum Dot Clone-Like Photons

Authors: George Rajna
Comments: 39 Pages.

In the global quest to develop practical computing and communications devices based on the principles of quantum physics, one potentially useful component has proved elusive: a source of individual particles of light with perfectly constant, predictable, and steady characteristics. [27] Recent research from Kumamoto University in Japan has revealed that polyoxometalates (POMs), typically used for catalysis, electrochemistry, and photochemistry, may also be used in a technique for analyzing quantum dot (QD) photoluminescence (PL) emission mechanisms. [26] Researchers have designed a new type of laser called a quantum dot ring laser that emits red, orange, and green light. [25]
Category: Quantum Physics

[57] viXra:1902.0342 [pdf] submitted on 2019-02-20 11:27:57

Flash-Freeze Crystal

Authors: George Rajna
Comments: 42 Pages.

Physicists at the National Institute of Standards and Technology (NIST) have "flash-frozen" a flat crystal of 150 beryllium ions (electrically charged atoms), opening new possibilities for simulating magnetism at the quantum scale and sensing signals from mysterious dark matter. [26] Karimi's team has successfully built and operated the first-ever quantum simulator designed specifically for simulating cyclic (ringed-shaped) systems. [25] A new Tel Aviv University study explores the generation and propagation of excitons in 2D materials within an unprecedented small time frame and at an extraordinarily high spatial resolution. [24]
Category: Quantum Physics

[56] viXra:1902.0341 [pdf] submitted on 2019-02-20 11:44:10

Matter-Wave Diffraction Planes

Authors: George Rajna
Comments: 46 Pages.

Researchers at Ulsan National Institute of Science and Technology (UNIST), in Korea, and Fritz-Haber-Institut der Max-Planck-Gesellschaft, in Germany, have recently conducted a study investigating matter-wave diffraction from a periodic array of half planes. [27] Physicists at the National Institute of Standards and Technology (NIST) have "flash-frozen" a flat crystal of 150 beryllium ions (electrically charged atoms), opening new possibilities for simulating magnetism at the quantum scale and sensing signals from mysterious dark matter. [26]
Category: Quantum Physics

[55] viXra:1902.0339 [pdf] submitted on 2019-02-20 13:17:52

Superconduction Have to be Cold

Authors: George Rajna
Comments: 28 Pages.

TU Wien has now made a major advance towards achieving this goal and, at the same time, has furthered an understanding of why conventional materials only become superconducting at around -200°C [18] The emerging field of spintronics leverages electron spin and magnetization. [17] The first known superconductor in which spin-3/2 quasiparticles form Cooper pairs has been created by physicists in the US and New Zealand. [16]
Category: Quantum Physics

[54] viXra:1902.0333 [pdf] submitted on 2019-02-21 02:20:43

A Geometric Interpretation of the de Broglie Wavelength

Authors: Jean Louis Van Belle
Comments: 5 Pages.

While the de Broglie wavelength pops up in various fundamental quantun-mechanical equations, a solid geometric interpretation of it has so far evaded us. This paper (part of an upcoming) book may help to crack the nut.
Category: Quantum Physics

[53] viXra:1902.0331 [pdf] replaced on 2019-02-21 06:54:57

On the Experimental Study of Nonlocality in Quantum Physics

Authors: V.A. Kuz`menko
Comments: 3 Pages. Sorry, only now I saw a literal error in the last paragraph (NOM-HOM).

It is proposed to continue the experimental study of the Hong-Ou-Mandel (HOM) effect in order to identify the nonlocal properties of the memory of quantum systems.
Category: Quantum Physics

[52] viXra:1902.0325 [pdf] submitted on 2019-02-19 05:42:38

Quantized Heating in Quantum Matter

Authors: George Rajna
Comments: 38 Pages.

Beyond the beauty of this phenomenon, which connects heating processes to topology through an elegant quantization law, the results reported in this work designate heating measurements as a powerful and universal probe for exotic states of matter. [22] "We studied two systems: a Bose-Einstein condensate with 100,000 atoms confined in a cavity and an optomechanical cavity that confines light between two mirrors," Gabriel Teixeira Landi, a professor at the University of São Paulo's Physics Institute (IF-USP), told. [21]
Category: Quantum Physics

[51] viXra:1902.0324 [pdf] submitted on 2019-02-19 07:29:00

Laser Light into Quantum Light

Authors: George Rajna
Comments: 38 Pages.

An international team of researchers led out of Macquarie University has demonstrated a new approach for converting ordinary laser light into genuine quantum light. [23] Beyond the beauty of this phenomenon, which connects heating processes to topology through an elegant quantization law, the results reported in this work designate heating measurements as a powerful and universal probe for exotic states of matter. [22]
Category: Quantum Physics

[50] viXra:1902.0319 [pdf] submitted on 2019-02-19 15:37:22

Relative Measurement Theory the Unification of Experimental and Theoretical Measurements

Authors: Kenneth R Krechmer
Comments: 14 Pages.

The discontinuous, non-causal and instantaneous changes due to a measurement that appear in quantum mechanics (QM) theory are not consistent with a classical understanding of physical reality, but are completely confirmed by experiments. Relative measurement theory explains why. This paper presents the first formal development of an experimental measurement which includes the uncertainty due to calibration and resolution. The uncertainty due to calibration and resolution, previously considered experimental artifacts, is shown to be equal to the uncertainty that appears in QM theory and experiment. When the calibration to a reference and resolution effects are considered, all the QM measurement discontinuities are consistent with classical explanations.
Category: Quantum Physics

[49] viXra:1902.0316 [pdf] submitted on 2019-02-20 01:51:46

Quantum Particles Resolution

Authors: George Rajna
Comments: 39 Pages.

A new Tel Aviv University study explores the generation and propagation of excitons in 2D materials within an unprecedented small time frame and at an extraordinarily high spatial resolution. [24] An international team of researchers led out of Macquarie University has demonstrated a new approach for converting ordinary laser light into genuine quantum light. [23] Beyond the beauty of this phenomenon, which connects heating processes to topology through an elegant quantization law, the results reported in this work designate heating measurements as a powerful and universal probe for exotic states of matter. [22]
Category: Quantum Physics

[48] viXra:1902.0314 [pdf] submitted on 2019-02-20 04:56:29

Quantum Light Simulator

Authors: George Rajna
Comments: 41 Pages.

Karimi's team has successfully built and operated the first-ever quantum simulator designed specifically for simulating cyclic (ringed-shaped) systems. [25] A new Tel Aviv University study explores the generation and propagation of excitons in 2D materials within an unprecedented small time frame and at an extraordinarily high spatial resolution. [24] An international team of researchers led out of Macquarie University has demonstrated a new approach for converting ordinary laser light into genuine quantum light. [23]
Category: Quantum Physics

[47] viXra:1902.0312 [pdf] submitted on 2019-02-18 13:39:44

Practical Quantum Secure Direct Communication

Authors: George Rajna
Comments: 72 Pages.

Quantum secure direct communication (QSDC) is an important branch of quantum communication, based on the principles of quantum mechanics for the direct transmission of classified information. [43] The deluge of cyberattacks sweeping across the world has governments and companies thinking about new ways to protect their digital systems, and the corporate and state secrets stored within. [42] The Pentagon on Friday said there has been a cyber breach of Defense Department travel records that compromised the personal information and credit card data of U.S. military and civilian personnel. [41]
Category: Quantum Physics

[46] viXra:1902.0308 [pdf] submitted on 2019-02-19 01:30:39

Exotic Spiraling Electrons

Authors: George Rajna
Comments: 49 Pages.

Rutgers and other physicists have discovered an exotic form of electrons that spin like planets and could lead to advances in lighting, solar cells, lasers and electronic displays. [30] Scientists used spiraling X-rays at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) to observe, for the first time, a property that gives handedness to swirling electric patterns – dubbed polar vortices – in a synthetically layered material. [29]
Category: Quantum Physics

[45] viXra:1902.0305 [pdf] submitted on 2019-02-18 07:56:10

Quantum Systems Talk

Authors: George Rajna
Comments: 74 Pages.

Researchers at the University of Chicago and Argonne National Laboratory have invented an innovative way for different types of quantum technology to "talk" to each other using sound. [44] Quantum secure direct communication (QSDC) is an important branch of quantum communication, based on the principles of quantum mechanics for the direct transmission of classified information. [43]
Category: Quantum Physics

[44] viXra:1902.0274 [pdf] submitted on 2019-02-15 09:10:58

Laser Pulses and Quantum Computing

Authors: George Rajna
Comments: 65 Pages.

Scientists at the U.S. Department of Energy's Ames Laboratory have discovered a means of controlling the surface conductivity of a three-dimensional (3-D) topological insulator, a type of material that has potential applications in spintronic devices and quantum computing. [42] With enhanced understanding of this system, the Quantum Dynamics Unit aims to improve upon the industry standard for qubits – bits of quantum information. [41]
Category: Quantum Physics

[43] viXra:1902.0273 [pdf] submitted on 2019-02-15 10:05:39

Spintronics by Straintonics

Authors: George Rajna
Comments: 48 Pages.

Now, teams from France, Spain and Germany have demonstrated the feasibility of another approach at the nanoscale: "We can induce magnetic order on a small region of our sample by employing a small electric field instead of using magnetic fields," Dr. Sergio Valencia, HZB, says. [34] In 2017, University of Utah physicist Valy Vardeny called perovskite a "miracle material" for an emerging field of next-generation electronics, called spintronics, and he's standing by that assertion. [33] Scientists at Tokyo Institute of Technology proposed new quasi-1-D materials for potential spintronic applications, an upcoming technology that exploits the spin of electrons. [32] They do this by using "excitons," electrically neutral quasiparticles that exist in insulators, semiconductors and in some liquids. [31]
Category: Quantum Physics

[42] viXra:1902.0272 [pdf] submitted on 2019-02-15 10:24:12

Diamond Spins Measurement Technique

Authors: George Rajna
Comments: 50 Pages.

A new method to read out the spin states of individual negatively-charged nitrogen vacancy (NV–) centres has been developed by researchers in Europe and Japan. [35] Now, teams from France, Spain and Germany have demonstrated the feasibility of another approach at the nanoscale: "We can induce magnetic order on a small region of our sample by employing a small electric field instead of using magnetic fields," Dr. Sergio Valencia, HZB, says. [34] In 2017, University of Utah physicist Valy Vardeny called perovskite a "miracle material" for an emerging field of next-generation electronics, called spintronics, and he's standing by that assertion. [33]
Category: Quantum Physics

[41] viXra:1902.0271 [pdf] submitted on 2019-02-15 10:43:57

Anti-Laser Masquerading Absorber

Authors: George Rajna
Comments: 68 Pages.

Researchers at Duke University have discovered that a perfect absorber of electromagnetic waves they described in a 2017 paper can easily be tweaked into a sort of "time-reversed laser" known as a coherent perfect absorber (CPA). [43] Scientists at the U.S. Department of Energy's Ames Laboratory have discovered a means of controlling the surface conductivity of a three-dimensional (3-D) topological insulator, a type of material that has potential applications in spintronic devices and quantum computing. [42] With enhanced understanding of this system, the Quantum Dynamics Unit aims to improve upon the industry standard for qubits – bits of quantum information. [41]
Category: Quantum Physics

[40] viXra:1902.0265 [pdf] submitted on 2019-02-16 04:10:48

Direct-Write Quantum Calligraphy

Authors: George Rajna
Comments: 49 Pages.

In contrast with conventional light emitting diodes which emit billions of photons simultaneously to form a steady stream of light, an ideal SPE generates exactly one photon on demand, with each photon indistinguishable from another. [35] Now, teams from France, Spain and Germany have demonstrated the feasibility of another approach at the nanoscale: "We can induce magnetic order on a small region of our sample by employing a small electric field instead of using magnetic fields," Dr. Sergio Valencia, HZB, says. [34] In 2017, University of Utah physicist Valy Vardeny called perovskite a "miracle material" for an emerging field of next-generation electronics, called spintronics, and he's standing by that assertion. [33]
Category: Quantum Physics

[39] viXra:1902.0262 [pdf] submitted on 2019-02-16 04:52:32

Symmetry Indicators of Topological Materials

Authors: George Rajna
Comments: 55 Pages.

An efficient new method to find out whether a material hosts topological states or not could help increase the number of known topological materials from a few hundred to thousands. [33] With their insensitivity to decoherence, Majorana particles could become stable building blocks of quantum computers. [32] A team of researchers at the University of Maryland has found a new way to route photons at the micrometer scale without scattering by building a topological quantum optics interface. [31]
Category: Quantum Physics

[38] viXra:1902.0259 [pdf] submitted on 2019-02-14 05:56:45

LED in Reverse Cool Computers

Authors: George Rajna
Comments: 66 Pages.

In a finding that runs counter to a common assumption in physics, researchers at the University of Michigan ran a light emitting diode (LED) with electrodes reversed in order to cool another device mere nanometers away. [42] With enhanced understanding of this system, the Quantum Dynamics Unit aims to improve upon the industry standard for qubits – bits of quantum information. [41]
Category: Quantum Physics

[37] viXra:1902.0232 [pdf] submitted on 2019-02-13 08:29:33

Multimaterial 3-D Laser Microprinting

Authors: George Rajna
Comments: 66 Pages.

Complex, three-dimensional (3-D) structures are regularly constructed using a reliable commercial method of 3-D laser micro- and nanoprinting. [42] A team led by University of Utah physicists has discovered how to fix a major problem that occurs in lasers made from a new type of material called quantum dots. [41] A team of researchers from the University of Central Florida and Michigan Technological University has developed a laser system concept built on the principles of supersymmetry. [40]
Category: Quantum Physics

[36] viXra:1902.0222 [pdf] submitted on 2019-02-12 22:36:59

Anomaly in Sign Function Probability Function Integration III

Authors: Han Geurdes
Comments: 7 Pages.

In the paper it is demonstrated that integration of products of sign functions and probability density functions such as in Bell’s formula for ±1 measurement functions, leads to inconsistencies. Keywords Inconsistency, Bell’s theorem.
Category: Quantum Physics

[35] viXra:1902.0217 [pdf] submitted on 2019-02-12 06:19:19

Quantum Strangeness Electronics

Authors: George Rajna
Comments: 61 Pages.

Advances in this fast-paced domain could improve devices for data storage and information processing and aid in the development of molecular switches, among other innovations. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38] Physicists at the Kastler Brossel Laboratory in Paris have reached a milestone in the combination of cold atoms and nanophotonics. [37] The universal laws governing the dynamics of interacting quantum particles are yet to be fully revealed to the scientific community. [36]
Category: Quantum Physics

[34] viXra:1902.0214 [pdf] submitted on 2019-02-12 06:44:11

Two-Dimensional Quantum Technology

Authors: George Rajna
Comments: 63 Pages.

Researchers at the University of Pennsylvania's School of Engineering and Applied Science have now demonstrated a new hardware platform based on isolated electron spins in a two-dimensional material. [40] Advances in this fast-paced domain could improve devices for data storage and information processing and aid in the development of molecular switches, among other innovations. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38]
Category: Quantum Physics

[33] viXra:1902.0213 [pdf] submitted on 2019-02-12 07:00:32

Questions in Quantum Computing

Authors: George Rajna
Comments: 65 Pages.

With enhanced understanding of this system, the Quantum Dynamics Unit aims to improve upon the industry standard for qubits – bits of quantum information. [41] Researchers at the University of Pennsylvania's School of Engineering and Applied Science have now demonstrated a new hardware platform based on isolated electron spins in a two-dimensional material. [40] Advances in this fast-paced domain could improve devices for data storage and information processing and aid in the development of molecular switches, among other innovations. [39]
Category: Quantum Physics

[32] viXra:1902.0212 [pdf] submitted on 2019-02-12 07:17:16

Chiral Weyl Particles

Authors: George Rajna
Comments: 21 Pages.

The group of physicist Sebastian Huber at ETH Zurich now reports experiments in which they got a handle on one of the defining properties of Weyl fermions—their chirality. [14] At TU Wien recently, particles known as 'Weyl fermions' were discovered in materials with strong interaction between electrons. Just like light particles, they have no mass but nonetheless they move extremely slowly. [13] Quantum behavior plays a crucial role in novel and emergent material properties, such as superconductivity and magnetism. [12]
Category: Quantum Physics

[31] viXra:1902.0210 [pdf] submitted on 2019-02-12 07:39:47

Hydrogen Photoelectron Spectroscopy

Authors: George Rajna
Comments: 60 Pages.

For the first time scientists measured the vibrational structure of hydrogen and helium atoms by X-rays. [40] Laser physicists have succeeded in reducing the acquisition time for data required for reliable characterization of multidimensional electron motions by a factor of 1000. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38] Physicists at the Kastler Brossel Laboratory in Paris have reached a milestone in the combination of cold atoms and nanophotonics. [37]
Category: Quantum Physics

[30] viXra:1902.0193 [pdf] submitted on 2019-02-11 10:24:34

Electron's Trip Across a Border

Authors: George Rajna
Comments: 27 Pages.

Electrons flowing across the boundary between two materials are the foundation of many key technologies, from flash memories to batteries and solar cells. [17] This new approach illuminates the origin of surface electromagnetic waves and explains why these waves appear at interfaces where one of the medium parameters (dielectric permittivity or magnetic permeability) changes its sign. [16] A team of physicists headed by Professor Sebastian Reineke of TU Dresden has developed a new method of storing information in fully transparent plastic foils. [15]
Category: Quantum Physics

[29] viXra:1902.0163 [pdf] submitted on 2019-02-09 12:13:19

New Theory of Quantization and Mass of Waves' Particles Elecrtons Generate Waves and Waves Generate Electrons

Authors: Yaseen Ali Mohamed Al Azzam
Comments: 6 Pages.

By an alternative interpretation of Compton effect experiment, I concluded that waves generate electrons and that waves and electrons are quantized into units of mass (which I called phosons). The phoson is defined as a fundamental unit of energy carried by a variable mass and the origin of quantization where phosons are the waves’ particles which also comprise the electrons’ mass. Photons were just a misinterpretation of the photoelectric experiment and were confused with the waves’ power ( the waves’ energy in one second time) which came in accordance of our measurement units
Category: Quantum Physics

[28] viXra:1902.0162 [pdf] submitted on 2019-02-09 12:09:45

Quantization of Poisson Brackets

Authors: Antoine Balan
Comments: 1 page, written in english

We propose a quantization of the Poisson brackets. We introduce the non-commutativity of the endomorphisms of fiber bundles for quantized Poisson brackets.
Category: Quantum Physics

[27] viXra:1902.0155 [pdf] submitted on 2019-02-09 02:13:13

Transmon Quantum Computer

Authors: George Rajna
Comments: 61 Pages.

The researchers report controlling quantum phenomena in a custom-designed electrical circuit called a transmon. [41] A team of researchers at the University of Chicago has developed a circuit platform for the exploration of quantum matter made of strongly interacting microwave photons. [40] Laser physicists have succeeded in reducing the acquisition time for data required for reliable characterization of multidimensional electron motions by a factor of 1000. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38]
Category: Quantum Physics

[26] viXra:1902.0154 [pdf] submitted on 2019-02-09 03:19:58

Quantum Mechanics as a Reactive Probabilistic System

Authors: Germano Resconi, Santanu Kumar Patro, Amrit Srecko Sorli
Comments: 20 Pages.

In this paper, we present quantum mechanics as a reactive system. To show this we introduce the holography as a reactive system. Illumination of the object and reference beam create sources (hologram) that activated by the same reference beam react in a way to produce the image Controlled chemical system react to the external or internal change generate new sources (chemical product) that diffuses in the body environment establish a new equilibrium. The droplets bouncing on a vertical vibrating fluid bath that simulate the main quantum phenomena is a reactive system between droplets and vibrating fluid. We show that quantum mechanics is a probabilistic reactive system between quantum potential and pseudo kinetic energy in which an integral is the Fisher information. We show that quantum mechanics can be built by only the probability normalization properties without assuming any other hypothesis. With join probability and Euler Lagrange equation we can find the quantum potential and with the continuity equation, we show that with only probability approach it is possible to give a meaning to the Schrodinger equation without any thermo-dynamical model of quantum mechanics. The reactive system can be denoted as a morphogenetic system where the form is generated by some designed rules or properties.
Category: Quantum Physics

[25] viXra:1902.0152 [pdf] submitted on 2019-02-09 04:14:03

Infrared Imaging Performance

Authors: George Rajna
Comments: 85 Pages.

A new method developed by Northwestern Engineering's Manijeh Razeghi has greatly reduced a type of image distortion caused by the presence of spectral cross-talk between dual-band long-wavelength photodetectors. [49] Plasmonic materials can uniquely control the electromagnetic spectrum due to nano-scale surface architecture. [48] A research group led by Yasuhiro Kuramitsu at Osaka University has revealed a magnetic reconnection driven by electron dynamics for the first time ever in laser-produced plasmas using the Gekko XII laser facility at the Institute of Laser Engineering, Osaka University. [47]
Category: Quantum Physics

[24] viXra:1902.0148 [pdf] submitted on 2019-02-08 08:47:51

Laser System Built on Supersymmetry

Authors: George Rajna
Comments: 60 Pages.

A team of researchers from the University of Central Florida and Michigan Technological University has developed a laser system concept built on the principles of supersymmetry. [40] Laser physicists have succeeded in reducing the acquisition time for data required for reliable characterization of multidimensional electron motions by a factor of 1000. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38]
Category: Quantum Physics

[23] viXra:1902.0146 [pdf] submitted on 2019-02-08 09:15:59

Laser Wavelength Splitting

Authors: George Rajna
Comments: 62 Pages.

A team led by University of Utah physicists has discovered how to fix a major problem that occurs in lasers made from a new type of material called quantum dots. [41] A team of researchers from the University of Central Florida and Michigan Technological University has developed a laser system concept built on the principles of supersymmetry. [40] Laser physicists have succeeded in reducing the acquisition time for data required for reliable characterization of multidimensional electron motions by a factor of 1000. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38]
Category: Quantum Physics

[22] viXra:1902.0142 [pdf] submitted on 2019-02-07 15:34:35

On the Probabilistic Nature of Observable Phenomena.

Authors: Muhammad Ali
Comments: 15 Pages.

This paper proposes a Gadenkan experiment named “Observer’s Dilemma”, to investigate the probabilistic nature of observable phenomena. It has been reasoned that probabilistic nature in, otherwise uniquely deterministic phenomena can be introduced due to lack of information of underlying governing laws. Through theoretical consequences of the experiment, concepts of ‘Absolute Complete’ and ‘Observably Complete” theories have been introduced. Furthermore, nature of reality being ‘absolute’ and ‘observable’ have been discussed along with the possibility of multiple realities being true for observer. In addition, certain aspects of quantum mechanics have been interpreted. It has been argued that quantum mechanics is an ‘observably complete’ theory and its nature is to give probabilistic predictions. Lastly, it has been argued that “Everettian - Many world” interpretation of quantum mechanics is very real and true in the framework of ‘observable nature of reality’, for humans.
Category: Quantum Physics

[21] viXra:1902.0128 [pdf] submitted on 2019-02-07 06:03:51

Laser Photoelectron Spectroscopy

Authors: George Rajna
Comments: 60 Pages.

Laser physicists have succeeded in reducing the acquisition time for data required for reliable characterization of multidimensional electron motions by a factor of 1000. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38] Physicists at the Kastler Brossel Laboratory in Paris have reached a milestone in the combination of cold atoms and nanophotonics. [37] The universal laws governing the dynamics of interacting quantum particles are yet to be fully revealed to the scientific community. [36]
Category: Quantum Physics

[20] viXra:1902.0124 [pdf] submitted on 2019-02-07 11:05:13

Strongly Interacting Microwave Photons

Authors: George Rajna
Comments: 60 Pages.

A team of researchers at the University of Chicago has developed a circuit platform for the exploration of quantum matter made of strongly interacting microwave photons. [40] Laser physicists have succeeded in reducing the acquisition time for data required for reliable characterization of multidimensional electron motions by a factor of 1000. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38]
Category: Quantum Physics

[19] viXra:1902.0121 [pdf] submitted on 2019-02-07 13:17:34

Big Step in Nanolaser Design

Authors: George Rajna
Comments: 62 Pages.

Lasers are widely used in household appliances, medicine, industry, telecommunications and more. Several years ago, scientists introduced nanolasers. [40] Laser physicists have succeeded in reducing the acquisition time for data required for reliable characterization of multidimensional electron motions by a factor of 1000. [39] Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38]
Category: Quantum Physics

[18] viXra:1902.0118 [pdf] submitted on 2019-02-06 20:54:33

Correlation of the Fine-Structure Constant to the Cosmic Horizon and Planck Length

Authors: Ankur S. Bhatt, F.M. Becker
Comments: 8 Pages.

The following paper derives the fine-structure constant. This derivation suggests that the fine-structure constant can be theoretically determined as the spectrum range of all the energy modes fitting inside the observable universe. This corresponds to the number of allowed radiation modes of a particle from the cosmic horizon down to Planck length. Additionally, an association between Newton's Law of Gravity and Coulomb's Law suggests there is a connection between mass and charge via the fine-structure constant.
Category: Quantum Physics

[17] viXra:1902.0115 [pdf] submitted on 2019-02-07 02:02:51

Electron Flow in Quantum Wires

Authors: George Rajna
Comments: 59 Pages.

Princeton researchers have demonstrated a new way of making controllable "quantum wires" in the presence of a magnetic field, according to a new study published in Nature. [38] Physicists at the Kastler Brossel Laboratory in Paris have reached a milestone in the combination of cold atoms and nanophotonics. [37] The universal laws governing the dynamics of interacting quantum particles are yet to be fully revealed to the scientific community. [36] Now NIST scientists have designed a vacuum gauge that is small enough to deploy in commonly used vacuum chambers. [35]
Category: Quantum Physics

[16] viXra:1902.0113 [pdf] replaced on 2019-02-12 11:15:18

The Zitterbewegung and the de Broglie Wavelength

Authors: Jean Louis Van Belle
Comments: 11 Pages.

This paper explores some more philosophical aspects of the Zitterbewegung model of an electron, including a geometric interpretation of the de Broglie wavelength.
Category: Quantum Physics

[15] viXra:1902.0098 [pdf] replaced on 2019-04-02 05:13:16

Spacetime Engineering

Authors: D. Chakalov
Comments: 16 Pages. Dedicated to 140th birthday of Albert Einstein, 14 March 2019.

Explanation of spacetime engineering, tailored for general audience.
Category: Quantum Physics

[14] viXra:1902.0093 [pdf] submitted on 2019-02-06 04:13:20

Wired Quantum Node

Authors: George Rajna
Comments: 57 Pages.

Physicists at the Kastler Brossel Laboratory in Paris have reached a milestone in the combination of cold atoms and nanophotonics. [37] The universal laws governing the dynamics of interacting quantum particles are yet to be fully revealed to the scientific community. [36] Now NIST scientists have designed a vacuum gauge that is small enough to deploy in commonly used vacuum chambers. [35] A novel technique that nudges single atoms to switch places within an atomically thin material could bring scientists another step closer to realizing theoretical physicist Richard Feynman's vision of building tiny machines from the atom up. [34]
Category: Quantum Physics

[13] viXra:1902.0090 [pdf] submitted on 2019-02-05 05:07:52

Read, Write and Erase Using Light

Authors: George Rajna
Comments: 23 Pages.

A team of physicists headed by Professor Sebastian Reineke of TU Dresden has developed a new method of storing information in fully transparent plastic foils. [15] A new electron microscopy technique that detects the subtle changes in the weight of proteins at the nanoscale—while keeping the sample intact—could open a new pathway for deeper, more comprehensive studies of the basic building blocks of life. [14] Researchers use a cavity-coupled double quantum dot to study electron-phonon interactions in a nanowire. [13]
Category: Quantum Physics

[12] viXra:1902.0089 [pdf] submitted on 2019-02-05 05:29:41

Surface Electromagnetic Waves

Authors: George Rajna
Comments: 24 Pages.

This new approach illuminates the origin of surface electromagnetic waves and explains why these waves appear at interfaces where one of the medium parameters (dielectric permittivity or magnetic permeability) changes its sign. [16] A team of physicists headed by Professor Sebastian Reineke of TU Dresden has developed a new method of storing information in fully transparent plastic foils. [15] A new electron microscopy technique that detects the subtle changes in the weight of proteins at the nanoscale—while keeping the sample intact—could open a new pathway for deeper, more comprehensive studies of the basic building blocks of life. [14]
Category: Quantum Physics

[11] viXra:1902.0076 [pdf] submitted on 2019-02-05 03:23:52

Reduce Quantum Noise

Authors: George Rajna
Comments: 58 Pages.

In a recent issue of Physical Review A, Argonne researchers reported a new method for alleviating the effects of "noise" in quantum information systems, a challenge scientists around the globe are working to meet in the race toward a new era of quantum technologies. [32] In this sense, the third dimension and the quantum bit are special, and so is quantum computation—in a phrase coined previously by computer scientist Scott Aaronson, it is an "island in theoryspace." [31] With the advent of open-access quantum computers, scientists at the University of Chicago saw an opportunity to do a very unusual experiment to test some of these quantum principles. [30]
Category: Quantum Physics

[10] viXra:1902.0074 [pdf] submitted on 2019-02-05 04:48:34

Exotic Electron Liquid

Authors: George Rajna
Comments: 56 Pages.

By bombarding an ultrathin semiconductor sandwich with powerful laser pulses, physicists at the University of California, Riverside, have created the first "electron liquid" at room temperature. [39] A group led by Peng Chen, the Peter J.W. Debye Professor in the Department of Chemistry and Chemical Biology at Cornell, has determined that photocurrent loses approximately 20 percent of its power as it passes through the interface. [38] NIMS and Hokkaido University jointly discovered that proton transfer in electrochemical reactions is governed by the quantum tunneling effect (QTE) under the specific conditions. [37] Researchers at the University of Vienna study the relevance of quantum reference frames for the symmetries of the world. [36]
Category: Quantum Physics

[9] viXra:1902.0069 [pdf] submitted on 2019-02-04 07:48:34

Performance of Multi-Dimensional Bits

Authors: George Rajna
Comments: 56 Pages.

In this sense, the third dimension and the quantum bit are special, and so is quantum computation—in a phrase coined previously by computer scientist Scott Aaronson, it is an "island in theoryspace." [31] With the advent of open-access quantum computers, scientists at the University of Chicago saw an opportunity to do a very unusual experiment to test some of these quantum principles. [30] Dr. Jan Klaers is a researcher of the Complex Photonic Systems group, part of UT's MESA+ Institute. Within the group, he started his own research direction in the field of experimental quantum thermodynamics. [29]
Category: Quantum Physics

[8] viXra:1902.0064 [pdf] submitted on 2019-02-04 09:06:23

Quantum Spreading Laws

Authors: George Rajna
Comments: 55 Pages.

The universal laws governing the dynamics of interacting quantum particles are yet to be fully revealed to the scientific community. [36] Now NIST scientists have designed a vacuum gauge that is small enough to deploy in commonly used vacuum chambers. [35] A novel technique that nudges single atoms to switch places within an atomically thin material could bring scientists another step closer to realizing theoretical physicist Richard Feynman's vision of building tiny machines from the atom up. [34]
Category: Quantum Physics

[7] viXra:1902.0042 [pdf] submitted on 2019-02-02 15:00:58

Chemical Bond as the Main Problem of Modern Chemistry and Physics.

Authors: Bezverkhniy Volodymyr Dmytrovych, Bezverkhniy Vitaliy Volodymyrovich.
Comments: 34 Pages.

The formation of the chemical bond is considered from the general theoretical standpoint as the interaction of different fermions. It is shown that using the modern classical concepts of chemical bond, it is impossible to obtain (strictly theoretically) a physical justification of the cause of the formation of a chemical bond. The shows the inapplicability of the Pauli principle to chemical bond and a new theoretical model of the chemical bond is proposed based on the Heisenberg uncertainty principle.
Category: Quantum Physics

[6] viXra:1902.0041 [pdf] submitted on 2019-02-02 15:38:22

Refutation of the Spin-Statistics Theorem

Authors: Colin James III
Comments: 2 Pages. © Copyright 2019 by Colin James III All rights reserved. Respond to author by email only at: info@ersatz-systems dot com. See website ersatz-systems.com . (We warn troll Mikko at Disqus to read the article four times before hormonal typing.)

Abstract: We evaluate the spin-statistics theorem assuming two variables are not equivalent for the equations of commute and anti-commute fields. The equations are logically equivalent meaning the status of the two variables is irrelevant and unnecessary. Therefore the theorem is refuted, casting doubt on the logical foundations of QFT.
Category: Quantum Physics

[5] viXra:1902.0018 [pdf] submitted on 2019-02-02 01:54:44

Quiet Laser Light

Authors: George Rajna
Comments: 70 Pages.

Spectrally pure lasers lie at the heart of precision high-end scientific and commercial applications, thanks to their ability to produce near-perfect single-color light. [41] Researchers have developed a compact laser that emits light with extreme spectral purity that doesn't change in response to environmental conditions. [40] A study led by scientists of the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) at the Center for Free-Electron Laser Science in Hamburg/Germany presents evidence of the amplification of optical phonons in a solid by intense terahertz laser pulses. [39]
Category: Quantum Physics

[4] viXra:1902.0017 [pdf] submitted on 2019-02-02 03:24:19

Open-Access Quantum Computer

Authors: George Rajna
Comments: 55 Pages.

With the advent of open-access quantum computers, scientists at the University of Chicago saw an opportunity to do a very unusual experiment to test some of these quantum principles. [30] Dr. Jan Klaers is a researcher of the Complex Photonic Systems group, part of UT's MESA+ Institute. Within the group, he started his own research direction in the field of experimental quantum thermodynamics. [29] Physicists envision that the future of quantum computation networks will contain scalable, monolithic circuits, which include advanced functionalities on a single physical substrate. [28]
Category: Quantum Physics

[3] viXra:1902.0015 [pdf] submitted on 2019-02-02 04:43:30

Virtual Lens X-ray Microscopy

Authors: George Rajna
Comments: 53 Pages.

With X-ray microscopes, researchers at PSI look inside computer chips, catalysts, small pieces of bone, or brain tissue. [37] Now, scientists at the National Synchrotron Light Source II (NSLS-II)—a U.S. Department of Energy (DOE) Office of Science User Facility at DOE's Brookhaven National Laboratory—have developed a TXM that can image samples 10 times faster than previously possible. [36] In a new study published Aug. 17 in Nature Communications, Nemsak, Fadley, Schneider and colleagues demonstrate the use of new techniques in X-ray spectroscopy to illuminate the internal structure of manganese-doped gallium arsenide. [35]
Category: Quantum Physics

[2] viXra:1902.0010 [pdf] submitted on 2019-02-01 08:57:36

Current via Quantum Proton Transfer

Authors: George Rajna
Comments: 51 Pages.

NIMS and Hokkaido University jointly discovered that proton transfer in electrochemical reactions is governed by the quantum tunneling effect (QTE) under the specific conditions. [37] Researchers at the University of Vienna study the relevance of quantum reference frames for the symmetries of the world. [36] Researchers in Singapore have built a refrigerator that's just three atoms big. This quantum fridge won't keep your drinks cold, but it's cool proof of physics operating at the smallest scales. [35] Researchers have created a new testing ground for quantum systems in which they can literally turn certain particle interactions on and off, potentially paving the way for advances in spintronics. [34]
Category: Quantum Physics

[1] viXra:1902.0001 [pdf] submitted on 2019-02-01 03:36:07

Deterministic Quantum Model of Atom

Authors: Daniele Sasso
Comments: 5 Pages.

The deterministic quantum model of atom described in the order of Deterministic Quantum Physics has proved a deterministic and non probabilistic formulation of atom model is possible. The preceding deterministic model presents nevertheless an imprecision regarding the use of spin. In fact in that model the double sign, positive and negative, for spin has been used in improper way. Because in the order of the Non-Standard Model electron spin is related to electron charge that is always by convention negative, it is manifest that electron spin has to assume always a negative value.
Category: Quantum Physics