Microtube implosions could produce megatesla magnetic fields According to the researchers who developed it at Japan’s Osaka University, the new method could be used to generate super-strong magnetic fields for fundamental research in fields such as materials science, quantum electrodynamics and astrophysics. To date, the strongest magnetic fields produced in the laboratory have been in the kilotesla (kT) range. This is far stronger than the magnetic field of the Earth, which is 0.3–0.5 × 10–4 T, and substantially exceeds the fields produced in magnetic tomography (MRI) machines (about 1 T). While fields in this lower range are important experimental tools, stronger fields could make it possible to study fundamental physics phenomena in areas such as plasma and beam physics, astrophysics and solar physics. Researchers are therefore exploring various ways of producing such super-strength fields – including collisional shocks, gamma rays and fusion in strongly magnetized plasmas, as well as explosives, high-power lasers and devices known as z-pinches, which have been used for decades by astronomers to recreate the hot plasmas that exist inside stars. Magnetic fields generated by spin currents Most of these approaches begin by taking the magnetic flux from “pre-seeded” strong magnetic fields and attempting to confine it within hollow cylindrical structures. A team led by Masakatsu Murakami has now used a similar physical configuration, but with a twist: the ultrahigh magnetic fields in its microtube implosion technique are generated by the spin currents created as charged particles are spun around by the Lorentz force, which acts on moving charged particles in a magnetic field. #einsteins #scienceexperiment #scienceeducation #scienceexperiments #scienceexpo #scienceteacher #scienceteachers #scienceisawesome #scienceresearch #scienceeducation #sciencenerd #kimia #fisika #dsr #decoding_scientific_research #education #sciencehook #teachings #chemistrylab #chemistryfacts #chemist #chemistryclass #scienceeducation #chemistrymemes #chemistry #chemistryscience⁣⁣⁣ #chemistrynotes (at India) https://www.instagram.com/p/CHNJhmbDh3j/?igshid=13v7s2wskkivi

It's a HUGEEEEE announcement. STAY TUNED! 👽👾🛸🌌 What do you think it will be about? TAG SOMEONE 👇 . . Follow us @decoding_scientific_research @decoding_scientific_research . . Posted @withregram • @astrogeekz . . #alien #space #venus #astronomy #astrophysics #physics #physicsfacts #follow #sciencefacts #science #cosmos #cosmology #universe #universefacts #comment #spacescience #dsr #decoding_scientific_research #chemcafe #chemcam https://www.instagram.com/p/CFG8gCtHyxU/?igshid=12w3uzzcf5inc

Motivation😅 . . . . Dm fr credit or removal . . Check Out More ⤵ @decoding_scientific_research @decoding_scientific_research • Follow @decoding_scientific_research #dsr #decoding_scientific_research #chemistry #endlessknowledge #chemistry #science #chemistry #science #scienceexperiment #chemistryexperiments #boredscientist #coolexperiments #chemist #chemistrymemes #chemists #chemistry2 #chemicalengineering #chemistryiscool #chemistryclass #chemistrystudent #organicchemistry #chemistry_lab #chemistryeducation #physics #scientist #chemistrynotes #chemistrystudent #chemistrylab #chemistryisfun #chemistrylove #inorganicchemistry #organicchemistry #dank #dankmemes #memes #chemistrymemes #chemistry https://www.instagram.com/p/CFFMu1-n1zi/?igshid=12ay2n2wwh9d1

Components of modern Mobile Phones * Dm fr credit or removal @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research • 💬 Tag Your Friends #dsr #decoding_scientific_research #endlessknowledge #chemistry #science #chemistry #science #scienceexperiment #chemistryexperiments #boredscientist #coolexperiments #chemist #chemistrymemes #chemists #chemistry2 #chemicalengineering #chemistryiscool #chemistryclass #chemistrystudent #organicchemistry #chemistry_lab #chemistryeducation #physics #scientist #chemistrynotes #chemistrystudent #chemistrylab #chemistryisfun #chemistrylove #inorganicchemistry #organicchemistry https://www.instagram.com/p/CFFHApknZMM/?igshid=1tm36p66a8pf4

🧙‍♀️ Let it separate Separating Funnel This technique is used for immiscible liquids (those that do not mix together). A separating funnel is used in the process. Method: Once you have the liquids in the funnel, you wait until they form two layers. The denser liquid sinks to the bottom and the other liquid is on the top. A conical flask is placed at the bottom to collect the denser liquid. The valve allows you to control when and how of the liquid is let through down to the conical flask. . Posted @withregram • @iocbprague . #sciencelife #research #chemistry_lab #chemistrylab #chemistry #science #chemistryfacts #akademievedcr #sciencelab #chemistrymajor #chemistrylovers #iocbprague#chemcafe #decoding_scientific_research #dsr #sciencekids #sciencediet #sciencematters #sciencefairproject #sciencefact #biomedicalscience #scienceillustration #sciencelife https://www.instagram.com/p/CE9Z8mengZx/?igshid=im2uydxcegcy

Which one is you? Favorite ♥️❣️ Full Credits To: @astrogeekz Posted @withregram • @astronomyfeed #chemcafe #decoding_scientific_research #dsr https://www.instagram.com/p/CE3ao39nQy3/?igshid=1d2fjsqnx6a76

🤣🤣🤣 Posted @withregram • @essentinity #newton #gravity #physicsfun #physics #physicsmemes #astrophysics #astronomy #cosmology #cosmos #quantumphysics #memesdaily #mathmemes #mathematics #memelife #engineering_memes #chemcafe #decoding_scientific_research #dsr https://www.instagram.com/p/CE2HyR2H7ae/?igshid=2zmu2zc0w1j0

Researchers led by Jiří Kaleta of IOCB Prague have synthesized regular 2D assemblies of isotopically labelled molecular switches and measured the properties of their isomerization, revealing that formation of such an assembly doesn’t hamper the photochemical switching properties of the embedded molecules. The isotopic labels came into use when measuring the switching properties using an analytic technique dependent on the labels. The team published the results in the Journal of the American Chemical Society. Let's watch this animation which by the popularization way shows the principle of molecule switching using laser. Posted @withregram • @iocbprague #sciencelife #research #chemistry_lab #chemistrylab #chemistry #science #chemistryfacts #akademievedcr #sciencelab #chemistrymajor #chemistrylovers #iocbprague #chemcafe #decoding_scientific_research #dsr #sciencekids #sciencediet #sciencematters #sciencefairproject #sciencefact #biomedicalscience #scienceillustration #sciencelife https://www.instagram.com/p/CE88_uQHwiY/?igshid=159uo20uzofgd

Puffball fungi releasing spores. . Calvatia gigantea, commonly known as the giant puffball, is a puffball mushroom commonly found in meadows, fields, and deciduous forests usually in late summer and autumn. It is found in temperate areas throughout the world. . Puffballs are a known styptic and have long been used as wound dressing, either in powdered form or as slices 3 cm thick. The fungus was often harvested prior to battles for this purpose. . Still, there are a few puffballs that are toxic, so a lack of gills isn’t a sure sign that you have an edible puffball mushroom. A lack of gills and a pure white interior are both required to identify edible species. Toxic puffball look-alikes either have gills, or they’re not white on the inside. . Posted @withregram • @weirdbiology #chemcafe #decoding_scientific_research #sciencekids #sciencediet #sciencematters #sciencefairproject #sciencefact #biomedicalscience #scienceillustration #sciencelife #scienceporn #scienceisawesome #sciencenews #scienceclass #scienceproject #sciencefun #sciencenerd #scienceworld #sciencefair #sciencefictionart #scienceart #sweetscien https://www.instagram.com/p/CE5_XzaHcFD/?igshid=wzmu6e1m1u6u

What was your reaction to this scene? Do you know someone who hasn't seen this movie ? Video: interstellar Movie Posted @withregram • @astronomyforum #chemcafe #decoding_scientific_research #dsr #sciencekids #sciencediet #sciencematters #sciencefairproject #sciencefact #biomedicalscience #scienceillustration #scienceporn #scienceisawesome #sciencenews #scienceclass #rocketscience #scienceproject #sciencenerd #scienceworld #sciencefair #sciencefictionart #scienceart #sweetscience #scienceexperiment #scienceisfun #sciencerules #sciencefacts #sciencememes #sciences #datascience #computerscience https://www.instagram.com/p/CE40QmtnAWB/?igshid=92k9jq12de6y

Amazing Experiment of Science Vs Music: Experience This is an real experiment perfomed by Nigel Stanford. Posted @withregram • @astronomyforum #chemcafe #decoding_scientific_research #dsr #sciencekids #sciencematters #sciencefairproject #sciencefact #scienceillustration #sciencelife #scienceporn #sciencenews #scienceclass #rocketscience #scienceproject #sciencefun #sciencebitch #sciencenerd #scienceworld #sciencefair #sciencefictionart #scienceart #sweetscience #scienceexperiment #scienceisfun #sciencerules #sciencefacts #sciencememes #sciences #datascience #computerscience https://www.instagram.com/p/CE3wqCMHkJp/?igshid=r7z757uyn9mo

🔥 FIRE 🔥⁣ ⁣ What you're looking at is a rocket booster test for our Space Launch System (SLS) rocket that will power the first Artemis missions to the Moon! SLS's two boosters are the largest, most powerful boosters ever built for flight. ⁣ ⁣ For a little over two minutes — the same amount of time that the boosters power the SLS rocket during liftoff and flight for each Artemis mission — the five-segment flight support booster fired in the Utah desert, producing more than 3 million pounds of thrust. ⁣ ⁣ Together with @NorthropGrumman, we will use data from this test to evaluate the motor's performance using potential new materials and processes that can be incorporated into future boosters.⁣ ⁣ Credit: NASA⁣ Posted @withregram • @nasa ⁣ #Rocket #Artemis #NASA #SLS #TurnItUp #chemcafe #decoding_scientific_research #dsr https://www.instagram.com/p/CE3XNTkHyjX/?igshid=wp5bomzqysyu

The wonder of chemistry Credits: @veejey65 Follow💗 @decoding_scientific_research 💛 for more knowledge💓, mems💜, fun💙 and information💘 about science and research.💚 @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research #research #researchers #researchanddevelopment #womeninscience #liftedlife #phdstudentlife #phdchat #phdstudentsofinstagram #sciencecommunication #urbanresearch #science #phd #chemistry #scientist #harvard #sciences #scienceart #knowledge #physics #scientist #chemistry #science #nobleprize2020 #noblepeaceprize #nobleprize #nobleprizewinner #nobleprizewinners #nobleprizeinliterature #atom #alberteinstein #sciencememe (at National Institute of Technology Tiruchirappalli) https://www.instagram.com/p/CKjVnyRjgX6/?igshid=gzr962pn6r1

Intense X-ray free-electron lasers (XFELs) can rapidly excite matter, leaving it in inherently unstable states that decay on femtosecond timescales. The relaxation occurs primarily via Auger emission, so excited-state observations are constrained by Auger decay. In situ measurement of this process is therefore crucial, yet it has thus far remained elusive in XFELs owing to inherent timing and phase jitter, which can be orders of magnitude larger than the timescale of Auger decay. Here we develop an approach termed ‘self-referenced attosecond streaking’ that provides subfemtosecond resolution in spite of jitter, enabling time-domain measurement of the delay between photoemission and Auger emission in atomic neon excited by intense, femtosecond pulses from an XFEL. Using a fully quantum-mechanical description that treats the ionization, core-hole formation and Auger emission as a single process, the observed delay yields an Auger decay lifetime of 2.2+0.2−0.32.2−0.3+0.2 fs for the KLL decay channel. Source: Nature Physics Follow💗 @decoding_scientific_research 💛 for more knowledge💓, mems💜, fun💙 and information💘 about science and research.💚 @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research #research #researchers #researchanddevelopment #womeninscience #liftedlife #phdstudentlife #phdchat #phdstudentsofinstagram #sciencecommunication #urbanresearch #science #phd #chemistry #scientist #harvard #sciences #scienceart #knowledge #physics #scientist #chemistry #science #nobleprize2020 #noblepeaceprize #nobleprize #nobleprizewinner #nobleprizewinners #nobleprizeinliterature #atom #alberteinstein #sciencememes #quantumphysics #quantummechanics (at National Institute of Technology Tiruchirappalli) https://www.instagram.com/p/CKSn9bqDTNO/?igshid=1l818bp6rgz0x

The heterocyclic beryllole is the first antiaromatic molecule containing an alkaline earth metal in its π system.1 While metals of the p, d and f block of the periodic table have all been shown to engage in π systems, there has never before been any aromatic or antiaromatic compounds containing s-block elements. Alkaline earth metals had been considered simply too inflexible in terms of their oxidation states to allow them to participate in π bonding. However, a few promising candidates for the first s-block π system emerged within the last decade. Source: Chemistry World Follow💗 @decoding_scientific_research 💛 for more knowledge💓, mems💜, fun💙 and information💘 about science and research.💚 @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research #research #researchers #researchanddevelopment #womeninscience #liftedlife #phdstudentlife #phdchat #phdstudentsofinstagram #sciencecommunication #urbanresearch #science #phd #chemistry #scientist #harvard #sciences #scienceart #knowledge #physics #scientist #chemistry #science #nobleprize2020 #noblepeaceprize #nobleprize #nobleprizewinner #nobleprizewinners #quantumphysics #quantummechanics #ramaneffect (at National Institute of Technology Tiruchirappalli) https://www.instagram.com/p/CJxA8oWj00B/?igshid=wjb6xbpjdl1h

Heavy-metal cluster sets size record for metal aromaticity The aromatic cluster consists of 12 bismuth atoms (purple) around a central thorium atom (blue) A 12-membered bismuth ring has become the biggest Hückel aromatic molecule made purely from metal atoms. Despite having only two π electrons, the compound’s ring current – an indicator of aromaticity – is similar to that of porphine with its 26 π-electrons. Since the discovery of aromaticity in the 19th century, it has been a property mostly reserved for carbon compounds with the occasional heteroatom. In 2001, chemists reported the first all-metal aromatic compound, a four-aluminium ring. Over the years, more examples of π-aromatic clusters have emerged, though none of them containing more than five metal atoms. ‘Our compound is a new milestone, as the system is much larger,’ says Stefanie Dehnen from the University of Marburg in Germany. Together with her colleague Florian Weigend, she led a team that has made an anionic 12-bismuth ring stabilised by a central thorium cation. It is the biggest all-metal molecule that is aromatic according to Hückel’s 4n+2 rule. Source : chemistry world Tags Follow💗 @decoding_scientific_research 💛 for more knowledge💓, mems💜, fun💙 and information💘 about science and research.💚 @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research @decoding_scientific_research #research #researchers #researchanddevelopment #womeninscience #liftedlife #phdstudentlife #phdchat #phdstudentsofinstagram #sciencecommunication #urbanresearch #science #phd #chemistry #scientist #harvard #sciences #scienceart #knowledge #physics #scientist #chemistry #science #atom #alberteinstein #sciencememes #quantumphysics #quantummechanics #knowledgeispower (at National Institute of Technology Tiruchirappalli) https://www.instagram.com/p/CJsaZ3Pjst8/?igshid=1id1dzf8y7hoe