A story from SIR BARRON QASEM II on Medium

Read “Who is the Godfather of Data Science?“ by SIR BARRON QASEM II on Medium: https://medium.com/@barronqasem/who-is-the-godfather-of-data-science-4b0dc09dded9

So. I went online and bought this Transformers generations Blurr toy and holy shit nothing prepared me for the lore on the back of it’s box o_o

Also every time Blurr gets to be a sniper my soul ascends a little bit~

+ Bonus doodles

kissing it better - logan howlett

Request: nope Pairing:  logan howlett x reader Summary:  based on this post by @sarahsmi13s Warnings:  nothing but tooth rotting fluff ugh I love logan Word count:  1K A/N: this post… yes.. also logan deserves some soft love <3 enjoy!

. ݁₊ ⊹ . ݁˖ . ݁. ݁₊ ⊹ . ݁˖ . ݁. ݁₊ ⊹ . ݁˖ . ݁. ݁₊ ⊹ . ݁˖ . ݁. ݁₊ ⊹ . ݁˖ . ݁. ݁₊ ⊹ . ݁˖ . ݁. ݁₊ ⊹ . ݁˖ . ݁. ݁₊ ⊹ . ݁˖ . ݁

slow, domestic mornings with logan are few and far in between. it’s why you cherish every one you get.

life in the mansion is hectic, to say the least. even if you would take away everyone’s mutant abilities, there’s still a couple of dozen kids with a lot of energy swarming the place.

but you wouldn’t have it any other way. you’d been one of those kids once. unsure of your place in the world, scared, not knowing who you could trust. 

like many young mutants, you caused chaos and pain when your mutation manifested. your own parents were afraid of you. and then the professor showed up at your house and told you about his school. 

you’ve spent many years here now, teaching the children while also being a member of the x-men. you finally have a place where you belong, where you feel safe and at home. where you have friends and family who care about you.

meeting logan was only the cherry on top.

from the moment you met him, you’d been curious about him. one day you were teaching your class as usual, the next moment there was a guy with anger issues and adamantium claws in your classroom. 

at first you were stunned, as were the students, but you introduced yourself and told him to take a seat once he explained the professor thought it was a good idea for him to know what life at the mansion would be like.

ever since, he’s been sitting in on a lot of your classes. you thought it was because he was interested in the topics, but later on he confided in you that your voice and presence soothe him. 

after that conversation, logan was around you often. to learn about the mansion, he said, but you knew better.

the more time you spent with him, it became obvious he came to you when he needed to calm down. he didn’t need you to talk to him, just needed to be near you.

sometimes you would talk. it was mostly you who did the talking, though. you told him about your childhood, how you met the professor, your time at the mansion as a kid, teasing scott about jean when you were a teenager. and then you told him about the missions you went on with your fellow x-men, the classes you taught the children, how they continued to surprise you every day.

and slowly, as logan started to trust you more, he told you about his life. what it was like years ago, what he went through. you wanted logan to open up to you on his own, but you couldn’t deny you were curious about him and his life. sometimes you couldn’t help it. 

you were cradling one of his hands, taking a closer look at his knuckles as you sat on the edge of your desk. the classroom was empty, the students long gone. but logan was still there

you feel logan’s gaze on you, but you continue to study his hand. turning his hand over in yours, examining it.

‘you really can just get them out whenever you want?’ you ask him.

‘yeah.’ says logan.

‘can I see them?’

logan briefly hesitates. no one’s ever asked him that. most people who have seen his claws up close didn’t live to tell the story. but you’re being so gentle with him, he does as you ask.

you drop your hands as he pulls his arm away slightly. then he slowly lets his claws come out. you watch as the skin between his knuckles splits as the adamantium blades slice through. 

you briefly look up to logan and notice how he clenches his jaw slightly. 

‘does it hurt?’ you ask him. ‘when they come out?’

logan looks down at you. at this fellow x-men, a teacher, a lover. no one has ever been this patient and gentle and loving with him.

‘every time.’ he says, looking at the way you’re holding his hand.

it had been a long time since logan had slept in his own room. what few belongings he had, he added to your room. but because the mansion life was a busy life, you rarely get to enjoy each other’s presence like this.

logan is still asleep. his breath tickles the back of your neck. one of his arms is lazily swung over your body, the other beneath your head. you love waking up like this, safe in his embrace.

you reach out and softly run your fingers over his knuckles. it’s remarkable how fast his skin heals. 

your touch wakes logan, who stirs behind you. now that he’s awake, you turn around in his arms so you can bury your face in his neck. logan pulls you closer, wanting to go back to sleep.

he feels how you take a hold of his hand and move it. then he feels something on his knuckles. he opens his eyes and sees you pressing soft kisses to the skin between his knuckles, right where the tips of his claws rest beneath his skin.

logan has never been the romantic type. but he swears he feels his heart burst with the amount of love he feels for you. you’ve kissed him before, obviously. but not like this, not on his knuckles.

‘what are you doing?’ he asks, voice still laced with sleep. 

you briefly look up at him before you move to get a hold of his other hand, bringing it up to your lips.

‘you said it hurts every time they come out.’ you explain. ‘I’m kissing it better.’

logan’s lips part in surprise, before smiling at you. 

‘you’re gonna do this every time they come out?’ he says.

you nod. ‘yes. you said it hurts every time. so I’ll kiss it better every time.’

‘you’ll be busy for the rest of your life, then.’

‘that’s okay. I don’t plan on going anywhere.’ 

logan leans in and presses a soft kiss against your lips. with his forehead against yours, he drifts off to sleep again. feeling the occasional kiss against his knuckles. 

A/N: thanks for reading! everything that I have written can be found on my masterlist. please do not copy, translate, plagiarise or repost my work! some of these are requested by other people and I spend a lot of time and effort on my works <3 much love, marit

equanimous drift

anyone who calls service industry jobs unskilled labor has never watched a teenager wrangle a burrito the size of an infant into one square foot of aluminum foil

he loved you

The way Data treats Spot is such a big proof of how much he feels... human feelings. And how he understands boundaries etc. Cats just *know* and Spot is treated so so well

Data treats his cat better than some humans treat theirs seriously

I love the "he asked for no pickles" meme with doorkeay bc I've only ever seen it with Gerry being the one talking and u just KNOW it's not bc Michael doesn't want to correct the food staff, but that it wants to correct them a little too much. Gerry has to step in otherwise they'll be there for at least another hour of Michael spinning some philosophical bullshit and scaring some poor fast food worker, and while Gerry doesn't necessarily mind Michael doing that in and of itself (he knows the thing he's in love with), as the only one of the two of them who actually needs material food he would like to eat that food before it gets cold tyvm.

MIT scientists pin down the origins of a fast radio burst

New Post has been published on https://thedigitalinsider.com/mit-scientists-pin-down-the-origins-of-a-fast-radio-burst/

MIT scientists pin down the origins of a fast radio burst

Fast radio bursts are brief and brilliant explosions of radio waves emitted by extremely compact objects such as neutron stars and possibly black holes. These fleeting fireworks last for just a thousandth of a second and can carry an enormous amount of energy — enough to briefly outshine entire galaxies.

Since the first fast radio burst (FRB) was discovered in 2007, astronomers have detected thousands of FRBs, whose locations range from within our own galaxy to as far as 8 billion light-years away. Exactly how these cosmic radio flares are launched is a highly contested unknown.

Now, astronomers at MIT have pinned down the origins of at least one fast radio burst using a novel technique that could do the same for other FRBs. In their new study, appearing today in the journal Nature, the team focused on FRB 20221022A — a previously discovered fast radio burst that was detected from a galaxy about 200 million light-years away.

The team zeroed in further to determine the precise location of the radio signal by analyzing its “scintillation,” similar to how stars twinkle in the night sky. The scientists studied changes in the FRB’s brightness and determined that the burst must have originated from the immediate vicinity of its source, rather than much further out, as some models have predicted.

The team estimates that FRB 20221022A exploded from a region that is extremely close to a rotating neutron star, 10,000 kilometers away at most. That’s less than the distance between New York and Singapore. At such close range, the burst likely emerged from the neutron star’s magnetosphere — a highly magnetic region immediately surrounding the ultracompact star.

The team’s findings provide the first conclusive evidence that a fast radio burst can originate from the magnetosphere, the highly magnetic environment immediately surrounding an extremely compact object.

“In these environments of neutron stars, the magnetic fields are really at the limits of what the universe can produce,” says lead author Kenzie Nimmo, a postdoc in MIT’s Kavli Institute for Astrophysics and Space Research. “There’s been a lot of debate about whether this bright radio emission could even escape from that extreme plasma.”

“Around these highly magnetic neutron stars, also known as magnetars, atoms can’t exist — they would just get torn apart by the magnetic fields,” says Kiyoshi Masui, associate professor of physics at MIT. “The exciting thing here is, we find that the energy stored in those magnetic fields, close to the source, is twisting and reconfiguring such that it can be released as radio waves that we can see halfway across the universe.”

The study’s MIT co-authors include Adam Lanman, Shion Andrew, Daniele Michilli, and Kaitlyn Shin, along with collaborators from multiple institutions.

Burst size

Detections of fast radio bursts have ramped up in recent years, due to the Canadian Hydrogen Intensity Mapping Experiment (CHIME). The radio telescope array comprises four large, stationary receivers, each shaped like a half-pipe, that are tuned to detect radio emissions within a range that is highly sensitive to fast radio bursts.

Since 2020, CHIME has detected thousands of FRBs from all over the universe. While scientists generally agree that the bursts arise from extremely compact objects, the exact physics driving the FRBs is unclear. Some models predict that fast radio bursts should come from the turbulent magnetosphere immediately surrounding a compact object, while others predict that the bursts should originate much further out, as part of a shockwave that propagates away from the central object.

To distinguish between the two scenarios, and determine where fast radio bursts arise, the team considered scintillation — the effect that occurs when light from a small bright source such as a star, filters through some medium, such as a galaxy’s gas. As the starlight filters through the gas, it bends in ways that make it appear, to a distant observer, as if the star is twinkling. The smaller or the farther away an object is, the more it twinkles. The light from larger or closer objects, such as planets in our own solar system, experience less bending, and therefore do not appear to twinkle.

The team reasoned that if they could estimate the degree to which an FRB scintillates, they might determine the relative size of the region from where the FRB originated. The smaller the region, the closer in the burst would be to its source, and the more likely it is to have come from a magnetically turbulent environment. The larger the region, the farther the burst would be, giving support to the idea that FRBs stem from far-out shockwaves.

Twinkle pattern

To test their idea, the researchers looked to FRB 20221022A, a fast radio burst that was detected by CHIME in 2022. The signal lasts about two milliseconds, and is a relatively run-of-the-mill FRB, in terms of its brightness. However, the team’s collaborators at McGill University found that FRB 20221022A exhibited one standout property: The light from the burst was highly polarized, with the angle of polarization tracing a smooth S-shaped curve.  This pattern is interpreted as evidence that the FRB emission site is rotating — a characteristic previously observed in pulsars, which are highly magnetized, rotating neutron stars.

To see a similar polarization in fast radio bursts was a first, suggesting that the signal may have arisen from the close-in vicinity of a neutron star. The McGill team’s results are reported in a companion paper today in Nature.

The MIT team realized that if FRB 20221022A originated from close to a neutron star, they should be able to prove this, using scintillation.

In their new study, Nimmo and her colleagues analyzed data from CHIME and observed steep variations in brightness that signaled scintillation — in other words, the FRB was twinkling. They confirmed that there is gas somewhere between the telescope and FRB that is bending and filtering the radio waves. The team then determined where this gas could be located, confirming that gas within the FRB’s host galaxy was responsible for some of the scintillation observed. This gas acted as a natural lens, allowing the researchers to zoom in on the FRB site and determine that the burst originated from an extremely small region, estimated to be about 10,000 kilometers wide.

“This means that the FRB is probably within hundreds of thousands of kilometers from the source,” Nimmo says. “That’s very close. For comparison, we would expect the signal would be more than tens of millions of kilometers away if it originated from a shockwave, and we would see no scintillation at all.”

“Zooming in to a 10,000-kilometer region, from a distance of 200 million light years, is like being able to measure the width of a DNA helix, which is about 2 nanometers wide, on the surface of the moon,” Masui says. “There’s an amazing range of scales involved.”

The team’s results, combined with the findings from the McGill team, rule out the possibility that FRB 20221022A emerged from the outskirts of a compact object. Instead, the studies prove for the first time that fast radio bursts can originate from very close to a neutron star, in highly chaotic magnetic environments.

“These bursts are always happening, and CHIME detects several a day,” Masui says. “There may be a lot of diversity in how and where they occur, and this scintillation technique will be really useful in helping to disentangle the various physics that drive these bursts.”

This research was supported by various institutions including the Canada Foundation for Innovation, the Dunlap Institute for Astronomy and Astrophysics at the University of Toronto, the Canadian Institute for Advanced Research, the Trottier Space Institute at McGill University, and the University of British Columbia.

I so wish the A and B plots in the cross over episode both contained Ds9 crew interacting with tng officers, they could have stuck this worf goes searching for his father plot anywhere and instead given us Kira and Picard dealing with the bajoran aqueduct repairs, or Beverly and Troi going to quarks to visit the holosuit spa program

I've been thinking about the kind of playstyle Axl EXE would have. I'm actually curious what kinds of chips he'd use most often xD

Oho , Axl.exe would be a fast navi :] , though he is pretty much low health for a boss

He mostly cycle through his buster gun and his scythe , he mostly like to dash when he uses the scythe and uses mostly sneak attacks ^^ ( comparison maybe spooky virus)

And Axl can make 2 shadow clones of himself like MMX Red ^^)9 , and his ability “A trans” where he can copy other navi and use their power ( but it won’t be as powerful unless he able to get that navi’s full data by defeating them or forcefully extract)

For chips , i think Red is pretty adventurous , though he gives Axl more ranged chip like shotgun or dash

But since Red is legally blind , Axl’s custom bar is slow

I hate that every drive thru begins with a recording of a white person asking me about mobile orders. No, I'm not using the app, let me talk to a human PLEASE.

Today's Daily Degurechaff is… boop boop boop

i have written so much—today, EVERY DAY—for the past two weeks that i have literally just STOPPED TRACKING

I HAVE STOPPED MY DETAILED TRACKING PROCEDURES

STOPPED, I TELL YOU