(𝔭𝔯𝔢𝔳𝔦𝔬𝔲𝔰𝔩𝔶) @taintedevesayori

[Throughout the journey of bringing her to an unknown location, he didn't answer any of her further questions nor talked to her as his face wears a relaxed smile, seemingly enthusiastic of what their following activity will be.]

[Arriving to a more remote spot eventually, where he then escalated the process of the long route travel by teleportation as the next moment they have landed inside the interior of a shopping mall.]

[Winding up to enter into one of the shops that seemingly turns out to be a boutique shop selling female belonging to the more trendy and fashionable category.]

[He then proceeds to select several outfits out of the racks quite masterfully, most being in the schemed colour of dark purple, black and some white, stacking up the pile higher and higher in the girl's hands the further as he surveys the shop.]

“This one——”

“Ooh this one too!”

“This one's also nice! Ahh, You really must try this on.”

“May we have a size S or M of this shirt? Yes. Please and thank you~”

[Every once in awhile, he turned towards the sales keeper standing aside, who was ready for providing assistance, and request for the desired size measurements consistently with a smile. All the while feining complete deaf ears to any mumble of protests or words spouted, continuing on the sole mission he set himself with up till he had skimmed through the entire store before he pulled her towards the dressing room, entering one of them with her, taking the pile of clothes from her hands then place them on the stool aside before turning towards her with a bright smile.]

“——Now, strip★”

𝕷𝖊𝖆𝖗𝖓𝖎𝖓𝖌 𝕿𝖔 𝕷𝖔𝖛𝖊 | 𝕹𝖊𝖜𝖙 𝕾𝖈𝖆𝖒𝖆𝖓𝖉𝖊𝖗

Chapter One | Sweden

Summary: Several months after sharing a longing, intimate moment with your boss, Newt, you find yourself in the heart of a thrilling adventure.

Will chasing smugglers, taming dragons, and awkward family dinners be the key to pushing the two of you closer?

Author's Note: Here is the long awaited, long requested sequel to my fiction "Stumped"! Please, to all those who had previously enjoyed the story and requested this, accept my sincerest apologies.

I never knew how to continue the plotline until now. Rest assured, this multi-chapter fic will have everything you could ever desire! Depending on how this goes, I may change the rating. (�� •͈ᴗ•͈)

Disclaimer: I have made this work non-compliant with canon for several reasons. Including a) lack of desire to be associated with films 2 & 3, b) for flow and story purposes, and c) because I do not condone J.K.R's behavior and wish to use my writing to bring joy despite the hurt she has caused.

Ao3 - General Audience Word Count: 1099 Warnings: None

"And so it was that you were left to sketch and think. It seemed that Newt was not the only one in a predicament, as confusion too clouded your mind. You were stumped. Stumped as to why Newt had seemed so pleased with your staring, why his smiling never ceased, and why he had chosen to keep you in his company after that. " - Stumped (2020)

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The air was hot, the wind scorching, and no relief could be found in any amount of water you carried. Despite the great altitude, no snow decorated the cliff faces and mountain peaks. Each breath only served to fuel coughing fits, what with the dryness and heavy musk of dragon. By all accounts, the world should have been covered in white, howling winds should have whipped ice across the craggy stone, and you definitely shouldn’t have been in a simple blouse and trousers. 

Yet, here you were. Wand drawn and a thin cloth covering your mouth, without any form of elemental protection. You’d always imagined your first trip to Sweden would be for recreation. Though, you supposed, searching for a smuggled Swedish Short-snout hatchling was more exciting than an office job at the Ministry.

“How are you fairing, darling?” A smooth, strong voice called to you.

You looked up at the man, watching him clamber up another outcropping of rock. Newt was in as much a state of discomfort as you were. His once voluminous curls fell, soaked with sweat, into his face, his shirt sleeves were rolled up above his elbow, and the cloth he held to his face was grimy. However, there was a crinkle at the corner of his eye that told you just how much he was enjoying this. You couldn’t help but return his smile though he couldn’t see it. 

“Perfectly content, Mr. Scamander! I only wonder at the heat, it is unexpected!” You tried your best to keep your voice level. 

“She must be in distress,” He took a moment to catch his breath. “I haven’t seen any blue flames yet, so she is still a good way up.”

“I suppose she’s turned much of the mountain side up there black.” You caught up with him and leaned on him for support.

“And any foliage to ash,” There was a fondness in his voice. “It’s likely how she escaped her captors to begin with. Many smugglers are unprepared for the heat of a Short-snout’s fire.”

You nodded and flicked your wand. The charm was quick to take effect, cooling both of you instantly. You would not risk cleansing your attire or casting a verbal spell here. The sweat and dragon musk clung to your clothing like a natural camouflage. It would be hard for the dragon to detect you, much less so if you kept your spell-casting to a minimum. 

Newt thanked you once he’d finished taking a sip of water. The synthetic waterskin was enchanted to keep its contents cool and permanently full. He offered it to you shyly, bumping it against your hand gently. 

“Drink.” His voice was soft, gentle. He wouldn’t command you to drink against your will, but there was a heavy tone of suggestion there nonetheless. It was your turn to thank him.

You took the waterskin, careful not to let your touch linger too long. Ever since that day in the suitcase, when your eyes had met and the world slowed to a stop, things had been different. Awkward. It never hindered your work, never interfered with your capabilities in tending to and drawing Mr. Scamander’s creatures, but it was always there. For you, anyway. It didn’t seem as though Newt understood how wholly that moment changed things for you. He was too sweet, too gentlemanly, to think of it as anything other than a moment between friends. 

“Try to keep up, Mr. Scamander.” You forged ahead, unable to stand beside him for longer than was necessary. 

Eventually, your trek up the mountainside proved fruitful. Newt once again led the way up. The heat only worsened, but that was to be expected when the stone underfoot was blackened and cracked. Any plants that may have grown from crevices in the rock were turned into small piles of ash, blown about by the wind. Which, as it happened, was not wind at all. The second thing to catch the eye of one Mr. Newt Scamander, was the flurry of movement from above. He placed his hand out behind him, palm facing you, and brought a finger to his lips. Then he pointed up.

Above, on an outcropping of stone, giant wings beat the air and battered against the rocks. Occasionally, chunks of char and sediment were flung down or broke off. The sound of the dragon’s beating wings paired with the gusts of wind against your skin. You had not been listening to the rage of mother nature. Instead, it had been the hatchling. With a look of concern, Newt pulled out two sets of thick, rubbery gloves and black, sturdy goggles. No words were exchanged as each of you donned the new accessories. The fire-resistant material felt strange against the skin, but otherwise did not offer much inconvenience. Just as Newt turned to lead you up to the outcropping, a massive chain swung down. It rattled evilly, smacking down across several sharp protrusions, and barely missed the Magizoologist. 

Newt pressed himself flush with the mountain and tugged you with him. “Careful! She must have tangled herself up when landing.”

The chain rose up through the air once more and now it was obvious that with each attempt at flight, the flapping was accompanied by rattling and creaking. Before, you had watched the pretty, pale creature take off into the sky but now she was grounded. A plume of searing blue flame spread out and up into the sky. The smell of burnt hair caused your stomach to twist. 

Looking to the man currently under the employment of the ‘Dragon Research and Restraint Bureau’ you began, “Mr. Scamander–”

He said your name, “It’s Newt. Please. Newt is far shorter and works best in cases such as these.”

You started again, “Merlin’s beard! Alright, Newt. How do you propose we get up there?”

“It’s far too dangerous to go up now, she’ll knock us off or roast us.” He chuckled lightly. “But it’s too dangerous to leave her up there alone. Those chains have to come off.”

“How do you calm a Swedish Short-snout?” You leaned closer to him as another, smaller chain whips by. 

"You know," He looked at you. "I am not entirely sure."

[What a little liar (read alt text if you are confused by what's going on)]

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soft girl and her hard boy

You are under no obligation to remain the same person you were a year ago, a month ago, or even a day ago. You are here to create yourself, continuously.

Richard Feynman

Two MIT teams selected for NSF sustainable materials grants

New Post has been published on https://thedigitalinsider.com/two-mit-teams-selected-for-nsf-sustainable-materials-grants/

Two MIT teams selected for NSF sustainable materials grants

Two teams led by MIT researchers were selected in December 2023 by the U.S. National Science Foundation (NSF) Convergence Accelerator, a part of the TIP Directorate, to receive awards of $5 million each over three years, to pursue research aimed at helping to bring cutting-edge new sustainable materials and processes from the lab into practical, full-scale industrial production. The selection was made after 16 teams from around the country were chosen last year for one-year grants to develop detailed plans for further research aimed at solving problems of sustainability and scalability for advanced electronic products.

Of the two MIT-led teams chosen for this current round of funding, one team, Topological Electric, is led by Mingda Li, an associate professor in the Department of Nuclear Science and Engineering. This team will be finding pathways to scale up sustainable topological materials, which have the potential to revolutionize next-generation microelectronics by showing superior electronic performance, such as dissipationless states or high-frequency response. The other team, led by Anuradha Agarwal, a principal research scientist at MIT’s Materials Research Laboratory, will be focusing on developing new materials, devices, and manufacturing processes for microchips that minimize energy consumption using electronic-photonic integration, and that detect and avoid the toxic or scarce materials used in today’s production methods.

Scaling the use of topological materials

Li explains that some materials based on quantum effects have achieved successful transitions from lab curiosities to successful mass production, such as blue-light LEDs, and giant magnetorestance (GMR) devices used for magnetic data storage. But he says there are a variety of equally promising materials that have shown promise but have yet to make it into real-world applications.

“What we really wanted to achieve is to bring newer-generation quantum materials into technology and mass production, for the benefit of broader society,” he says. In particular, he says, “topological materials are really promising to do many different things.”

Topological materials are ones whose electronic properties are fundamentally protected against disturbance. For example, Li points to the fact that just in the last two years, it has been shown that some topological materials are even better electrical conductors than copper, which are typically used for the wires interconnecting electronic components. But unlike the blue-light LEDs or the GMR devices, which have been widely produced and deployed, when it comes to topological materials, “there’s no company, no startup, there’s really no business out there,” adds Tomas Palacios, the Clarence J. Lebel Professor in Electrical Engineering at MIT and co-principal investigator on Li’s team. Part of the reason is that many versions of such materials are studied “with a focus on fundamental exotic physical properties with little or no consideration on the sustainability aspects,” says Liang Fu, an MIT professor of physics and also a co-PI. Their team will be looking for alternative formulations that are more amenable to mass production.

One possible application of these topological materials is for detecting terahertz radiation, explains Keith Nelson, an MIT professor of chemistry and co-PI. This extremely high-frequency electronics can carry far more information than conventional radio or microwaves, but at present there are no mature electronic devices available that are scalable at this frequency range. “There’s a whole range of possibilities for topological materials” that could work at these frequencies, he says. In addition, he says, “we hope to demonstrate an entire prototype system like this in a single, very compact solid-state platform.”

Li says that among the many possible applications of topological devices for microelectronics devices of various kinds, “we don’t know which, exactly, will end up as a product, or will reach real industrial scaleup. That’s why this opportunity from NSF is like a bridge, which is precious, to allow us to dig deeper to unleash the true potential.”

In addition to Li, Palacios, Fu, and Nelson, the Topological Electric team includes Qiong Ma, assistant professor of physics in Boston College; Farnaz Niroui, assistant professor of electrical engineering and computer science at MIT; Susanne Stemmer, professor of materials at the University of California at Santa Barbara; Judy Cha, professor of materials science and engineering at Cornell University; industrial partners including IBM, Analog Devices, and Raytheon; and professional consultants. “We are taking this opportunity seriously,” Li says. “We really want to see if the topological materials are as good as we show in the lab when being scaled up, and how far we can push to broadly industrialize them.”

Toward sustainable microchip production and use

The microchips behind everything from smartphones to medical imaging are associated with a significant percentage of greenhouse gas emissions today, and every year the world produces more than 50 million metric tons of electronic waste, the equivalent of about 5,000 Eiffel Towers. Further, the data centers necessary for complex computations and huge amount of data transfer — think AI and on-demand video — are growing and will require 10 percent of the world’s electricity by 2030.

“The current microchip manufacturing supply chain, which includes production, distribution, and use, is neither scalable nor sustainable, and cannot continue. We must innovate our way out of this crisis,” says Agarwal.

The name of Agarwal’s team, FUTUR-IC, is a reference to the future of the integrated circuits, or chips, through a global alliance for sustainable microchip manufacturing. Says Agarwal, “We bring together stakeholders from industry, academia, and government to co-optimize across three dimensions: technology, ecology, and workforce. These were identified as key interrelated areas by some 140 stakeholders. With FUTUR-IC we aim to cut waste and CO2-equivalent emissions associated with electronics by 50 percent every 10 years.”

The market for microelectronics in the next decade is predicted to be on the order of a trillion dollars, but most of the manufacturing for the industry occurs only in limited geographical pockets around the world. FUTUR-IC aims to diversify and strengthen the supply chain for manufacturing and packaging of electronics. The alliance has 26 collaborators and is growing. Current external collaborators include the International Electronics Manufacturing Initiative (iNEMI), Tyndall National Institute, SEMI, Hewlett Packard Enterprise, Intel, and the Rochester Institute of Technology.

Agarwal leads FUTUR-IC in close collaboration with others, including, from MIT, Lionel Kimerling, the Thomas Lord Professor of Materials Science and Engineering; Elsa Olivetti, the Jerry McAfee Professor in Engineering; Randolph Kirchain, principal research scientist in the Materials Research Laboratory; and Greg Norris, director of MIT’s Sustainability and Health Initiative for NetPositive Enterprise (SHINE). All are affiliated with the Materials Research Laboratory. They are joined by Samuel Serna, an MIT visiting professor and assistant professor of physics at Bridgewater State University. Other key personnel include Sajan Saini, education director for the Initiative for Knowledge and Innovation in Manufacturing in MIT’s Department of Materials Science and Engineering; Peter O’Brien, a professor from Tyndall National Institute; and Shekhar Chandrashekhar, CEO of iNEMI.

“We expect the integration of electronics and photonics to revolutionize microchip manufacturing, enhancing efficiency, reducing energy consumption, and paving the way for unprecedented advancements in computing speed and data-processing capabilities,” says Serna, who is the co-lead on the project’s technology “vector.”

Common metrics for these efforts are needed, says Norris, co-lead for the ecology vector, adding, “The microchip industry must have transparent and open Life Cycle Assessment (LCA) models and data, which are being developed by FUTUR-IC.” This is especially important given that microelectronics production transcends industries. “Given the scale and scope of microelectronics, it is critical for the industry to lead in the transition to sustainable manufacture and use,” says Kirchain, another co-lead and the co-director of the Concrete Sustainability Hub at MIT. To bring about this cross-fertilization, co-lead Olivetti, also co-director of the MIT Climate and Sustainability Consortium (MCSC), will collaborate with FUTUR-IC to enhance the benefits from microchip recycling, leveraging the learning across industries.

Saini, the co-lead for the workforce vector, stresses the need for agility. “With a workforce that adapts to a practice of continuous upskilling, we can help increase the robustness of the chip-manufacturing supply chain, and validate a new design for a sustainability curriculum,” he says.

“We have become accustomed to the benefits forged by the exponential growth of microelectronic technology performance and market size,” says Kimerling, who is also director of MIT’s Materials Research Laboratory and co-director of the MIT Microphotonics Center. “The ecological impact of this growth in terms of materials use, energy consumption and end-of-life disposal has begun to push back against this progress. We believe that concurrently engineered solutions for these three dimensions will build a common learning curve to power the next 40 years of progress in the semiconductor industry.”

The MIT teams are two of six that received awards addressing sustainable materials for global challenges through phase two of the NSF Convergence Accelerator program. Launched in 2019, the program targets solutions to especially compelling challenges at an accelerated pace by incorporating a multidisciplinary research approach.

This will always be one of my favorite fight scenes from any movie - It is a masterful continuous shot of mayhem that had to be planned out so well, yet practiced so little to get it all done it one take.

Raw talent from Tony Jaa and this stunt team.

You better give him his god damned elephant.

i have a review in Noise not music on my Project Continuous Probability.

check it out and give the project a listen

The world's FIRST rolling continuous belay system

Saferoller is the only system that can be fitted with the safety line out of the way for the greatest surge of adrenaline.

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👉bit.ly/ShopSaferoller

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#belay #safety #saferoller #continuous #lifeline #fallprotection #ppe

(𝔭𝔯𝔢𝔳𝔦𝔬𝔲𝔰𝔩𝔶) @taintedevesayori

[After a period of strolling the area, they finally arrived at the location of the main aquarium of the aquatic attraction where there were a small crowd already queueing up for entree.]

[Making their way past the main queueing line as they walked past the rows of people deliberately in a fast pass line, they were already at the entrance before they stopped, as Kuron took out his phone and showed the girl who bore a questionable gaze on her furrowed features at the standing booth, shaking his phone as he displayed the screen bought tickets, flashing a grin.]

“You thought we would have anymore time to waste on queueing?I've already purchased these passes way before you even realised it, heheh.”

“Let's go~”

[Putting his phone away, he took her hand in his again and started making their way towards the interior atrium of the aquarium centre, where a giant circular tank that rose towards the top as it reached the ceiling above greeted them. Its inside filled with a multitude of fish of different species as they swim within the tube in schools or individuals.]

Continuous 

Great social piece by the team over at Continuous, where they hosted a Eurovision beer-tasting event for their whole team. Love how they’ve used the bottle caps on the beers to symbolise the European flag from the top view. To complement this as well they have included event information in the top right where it stands out enough to be readable and noticeable but, doesn’t take anything away from the main focal point of the image. Some pieces are satisfying to the eye and this is one for me.

Sources: Instagram - @wearecontinuous

An orix passing one of the giant sand dunes in Namibia

HEYYY BUDDY YOUR DADS HERE AND NOW TINY AS HELL 👍

[And right after he mentions it too]

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