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FORMER first daughters Sasha and Malia Obama spent eight years growing up in the public eye.

After their father - Barack Obama's - last term in office, the family relocated to a nine-bedroom home in Washington, DC.

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In February of 2021, news first surfaced that Malia Obama had landed a television gig working in Hollywood.

She worked on the CBS dramaExtant, alongside Halle Berry.

On January 19, 2022, Malia was seen smoking a cigarette outside and glancing at her phone while out and about in Los Angeles.

Both of the Obama sisters have permanently relocated to the West Coast.

They were spotted hiking together in March of 2022.

Though she does not have any known social media accounts herself, Sasha was seen rapping and dancing to Moneybagg Yo's Said Sum with a friend in a TikTok video that was shared - and since deleted - in October of 2020.

In December of the same year, more footage from the video-sharing app surfaced, showing her goofing around with pals to Popp Hunna's Adderall song.

Many social media users have praised Sasha for enjoying her life amid the Covid pandemic, with one Twitter user saying at the time: "Our Sasha Obama looks happy, has a group of normal looking friends, and is simply beautiful."

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On James Corden's Late Late Show in 2021, former President Obama was asked about getting young kids inspired to enter public service or politics.

"What would you think or what advice would you give if Sasha or Malia ever came to you and said 'I want to go into public service?'" Cordon asked Obama at the time.

He replied: "First of all, them as teenagers - having secret service guys follow them when they were going out on dates - I think has probably shut down their interest in public service.

"They still have PTSD from guys talking into their wrist microphones and glasses as they try to go to a music concert."

Obama went on to say that being in public service, you have to have a certain tolerance for nonsense, silliness, and meanness.

"As a father, I want to protect my girls from that stuff," he said.

"I think they are probably going to find other ways to serve, rather than run for office themselves.

Obama later acknowledged that "you never know."

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Where are Sasha and Malia Obama now?

O-T Fagbenle has a message to former president Barack Obama, whom he portrays in the upcoming Showtime series First Lady, set to premiere April 17: Barack, call me.

Fagbenle discussed his upcoming turn as the 44th president, alongside Viola Davis Michelle Obama, at the premiere of Apple TV Pluss WeCrashed on Thursday at the Academy Museum. But did he try to contact President Obama to prepare for his role?

I did try and get in contact with him, of course!, Fagbenle said. This is what happened: Viola knows Michelle, and Viola had been chatting to Michelle, so I was like, Yo, ViVi, yo, help me out, bro, you got a hook up! So she put me in contact with the personal assistant of the president, and Im like, Im in. Yo, me and B are gonna play a bit of golf together.

But once it came down to actually corresponding with the former president, Fagbenles excitement was slightly dimmed. He continued, I said, Look Im filming in three months, can we chat? And I got a message back saying lovely message Barack would love to, but hes booked up. Hes booked up for three months? Just say you dont wanna see me, bro. Just say you dont want to see me.

The Emmy-nominated British actor also spoke about embodying the president, whom Fagbenle said he really, really studied in order to play the very well-known figure.

If youre playing Lincoln, no one knows what Lincoln was like. But even if youre playing Nixon, how many people can really recognize that Nixon hand movement?, Fagbenle said. But Barack Obama came alive during the social media movement, hes one of the most recognizable people, so [the challenge was] finding a way of playing a character, discovering a character and not doing an imitation, but at the same time doing enough that people arent like, Who the hells that guy playing?'

He continued, It was very hard Playing him over the span of 15 years is a challenge, as well, but it was a beautiful challenge.

Fagbenle wore prosthetics to capture Obamas signature ears: They gave me prosthetics that were his size, but they looked too big on my head so they actually had to give me smaller ears than he has to make it look realistic.

Continued here:
WeCrashed Star O-T Fagbenle on Finding the Right Fake Ears to Play Barack Obama in Showtimes First Lady - Variety

Sasha and Malia Obama cemented themselves as true Los Angeles celebrities after they were spotted taking a grueling hike in the Hollywood heat.

The former First Daughters of 44th President Barack Obama relocated to the West Coast earlier this year. The duo was photographed enjoying a scenic uphill walk just days after being spotted dining out at a lavish LA restaurant with their mother, former First Lady Michelle Obama.

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The Obama sisters put forth a sporty display during their hike, with Sasha, 20, wearing a tiny pair of black workout shorts that she coupled with a black T-shirt that was tied up into a crop top. Meanwhile, older sister Malia, 23, donned a black Nike sports bra and black leggings. Both completed their looks with black sneakers and several accessories, including colorful beaded necklaces and a rainbow-themed anklet. Sasha flaunted long bright green nails that matched with her green water bottle. Meanwhile, her iPhone was tucked into the waistband of her shorts. Malia sported a more low-key look, wearing a plain scrunchie on her wrist and leaving her braids to hang down her back. Malia was seen carrying a white water bottle and held her phone in her hand with what appeared to be a car key on a small stuffed animal keychain.

The images, obtained by The Daily Mail, showed the sisters chatting throughout their hike. At one point, both young women were seen leaning over to catch their breath as they made their way up a steep hill. The sisters also took in the stunning nature scenes around them, even pausing to pick some bright yellow flowers. However, they were not accompanied by any security or Secret Service. Former Presidents and their spouses are granted Secret Service protection for life, but the same policy only covers their children if they are under the age of 16. Sasha and Malia lost their Secret Service protection shortly after the Obamas left the White House. Nonetheless, they have been spotted with agents whenever they are in the company of their parents.

The sisters' outing came just days after former President Obama revealed that he had tested positive for Covid-19. The 60-year-old father-of-two said he had a "scratchy throat" but was otherwise "feeling fine." He noted that Michelle was still negative for the coronavirus.

I just tested positive for COVID. Ive had a scratchy throat for a couple days, but am feeling fine otherwise. Michelle and I are grateful to be vaccinated and boosted, and she has tested negative.

Its a reminder to get vaccinated if you havent already, even as cases go down.

"Michelle and I are grateful to be vaccinated and boosted, and she has tested negative," Obama tweeted. "It's a reminder to get vaccinated if you haven't already, even as cases go down," he added. Obama did not reveal whether his daughters had been tested, considering they had seen their mother just days before the former POTUS shared the news about his positive test result. However, it is assumed that he did not come into contact with his children, who moved to the West Coast earlier this year and adapted quickly to the Hollywood lifestyle.

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Sasha and Malia Obama steam up the sporty look in tiny shorts and sports bras on hike in LA - MEAWW

S-4 Registration Statement for D-Wave and DPCM Capital Business Combination Filed

An S-4 registration statement is required to be filed by the U.S. Securities and Exchange Commission for any merger between two companies. It provides a preliminary proxy statement and prospectus in connection with the transaction ahead of shareholder votes to approve the merger. DPCM Capital, a Special Purpose Acquisition Company (SPAC), has filed this statement for its proposed merger with D-Wave Systems.

The S-4 statement includes a Pro Forma Statement of Operations for D-Wave in 2021 indicating they achieved a revenue of $6.2 million with a net loss of $31.5 million. In addition, it shows that the company spent $25.4 million in R&D and received government assistance of $7.1 million during the year. The merger transaction is expected to close in the second quarter of 2022 with D-Wave receiving a cash infusion at that time of $280 million ($300 million from the SPAC trust and $40 million from a PIPE transaction minus $60 million of expected transaction fees) assuming no redemptions of the SPAC shares at closing. This particular deal has an unusual structure that provides a bonus pool of about 5 million shares to current SPAC shareholders who do not redeem their shares which might help avoid some of the issues weve seen in other SPAC deals where redemptions reduced the amount of cash provided to the company after the deal closes.

An announcement from DPCM Capital about the filing of the S-4 statement can be seen here and the S-4 filing itself and all the associated exhibits can be downloaded from this page on the SEC website. Also, an investor presentation that was created when the deal was announced last February can be accessed here. These documents include a lot of detailed information about the finances of D-Wave for those who are willing to dig into it.

March 19, 2022

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S-4 Registration Statement for D-Wave and DPCM Capital Business Combination Filed - Quantum Computing Report

March 18, 2022

Physicists have worked and wrestled with quantum theory for more than a century now, applying it to explore and help solve the profound mysteries of Albert Einsteins theory of relativity and cosmological conundrums such as black holes, gravity and the origins of the universe.

But for Arizona State University theoretical chemist Vladimiro Mujica, there is still a vast, secret and fascinating world to explore but rather than out there in the vastness of space time, at the nexus between everyday life on Earth and the quantum world. Cellular mutations in the molecule of life, DNA, happen randomly and are governed by quantum probability rules. Download Full Image

Recently, quantum mechanics has been found to play an essential role in our understanding of chemistry and biology, and the molecular theory of evolution.

Now, Mujica will get a chance to further explore this quantum world by leading a three-year, $1 million award from the prestigious Keck Foundation. Their goal is build a foundational understanding of how the sometimes weird, exotic features of quantum physics influence the very stuff that makes life work.

To do so, Mujica will lead a multi-institutional quantum biology team that includes ASU colleague William Petuskey and leading experimentalists, including Northwestern University co-investigators Michael Wasielewski and University of California Los Angeles professors Paul Weiss and Louis Bouchard.

To be successful, we really needed to think outside of the box, with a good foundation, said Mujica, a professor in the School of Molecular Sciences. So, we put this team together of leading experimentalists, but also with a firm grasp of theory top-ranking people to take a quantum leap in this field of science.

The awards initiative, titled Chirality, Spin Coherence, and Entanglement in Quantum Biology,will explore fundamental quantumeffects in biological systems.

For example, two key processes necessary for life: photosynthesis in plants and respiration in animals, are driven by reactions that involve the transfer of electrons in molecules and across boundaries within the cell.

Electrons themselves, in addition to carrying a negative charge, have key quantum properties, including spin, that plays a fundamental role in the molecular electron transfer processes that make life possible.

Vladimiro Mujica. Photo courtesy Mary Zhu

Chiral is the Greek word for hand. No matter how hard one tries, a left hand and right hand are non-superimposable mirror images of each other. Ever try to shake a persons hand with the opposite hand? That awkward encounter simply because the thumbs are in different positions is an everyday demonstration of chirality.

It turns out molecules, and life, have the same chiral properties. But how does that help their biological function?

We're trying to decipher in a way, a mystery of nature and evolution, Mujica said. Because it turns out that biological systems use these chiral molecules in proteins, DNA and RNA. These are some of the most important molecules in biology. For example, DNA is a double-helix ladder that is intrinsically chiral. And so are the proteins encoded by these fundamental biological molecules, which are the bricks and mortars of the cell, doing all the work that makes us alive.

Quantum mechanics is all-across biology: Photosynthesis. Cellular respirationc. Oxygen transport.Cellular mutations.

Are all governed by quantum effects.

These happen randomly and are governed by quantum probability rules.

One can zoom in further on life, under the skin all the way to the molecules at the atomic level and clouds of electrons in quantum states. In everyday life, we are used to electrons being transported through copper wires to deliver electricity to our homes.

But what are the wires that deliver electrons in living system, a process that involves substantial amounts of energy and heat? And how do they avoid frying life, or by proxy, us?

In living systems, how electrons are transferred or transported depends on organic molecules, Mujica said. Now, organic molecules are far less efficient than copper wires or anything like that to transport or transfer electrons. But nevertheless, evolution chose this in a way.

Mujica refers to this as a real mystery as to why Mother Nature chose these lousy molecules for transferring electrons.

Yet, as Jeff Goldblums quirky scientist character in "Jurassic Park" famously once said: "Life finds a way.

It turns out electrons are transported in organic molecules primarily by tunneling, not diffusion as in copper wires.

The mechanism electrons going through organic molecules is to a large extent a quantum phenomenon, Mujica said Its a mechanism called tunneling, and what it implies is that electrons can go from one region of the molecule to the other, even if they do not have enough energy to overcome intrinsic barriers.

The research team wants to investigate why and how electrons use this tunneling mechanism for biological function essential to life. First, they have designed a series of experiments using synthetic pairs of right or left-handed DNA structures. Next, they will custom tailor electron donors andacceptors as part of their structures to probe this chirality-dependentelectron transfer. All this experimental effort is guided by a predictive theoretical and computational effort.

Some of themodelsystems tweaks they will examine are the effect of the electron donor-acceptordistance, the temperature, redox properties and the coupling to their surrounding environment.

An electron transfer process with the electron-vibration (phonon) interaction. The process is essential to understanding and controlling charge and energy flow in various electronic, photonic and energy conversion devices or, in this case, a biomolecule. The "IN" and "OUT" have either the same or distorted phase, depending on whether the transport is coherent or incoherent.

A fundamental quantum electron property is spin. Electrons can be like spinning tops, rotating on their own axis.

Mujica explains that because electrons are charged particles, "this rotation creates a magnetic moment, which only has two components; one component aligns in the direction of transport and the other component is aligned in the opposite direction to transport.

"As they tunnel through chiral organic molecules, they have a preferential orientation due to the spin orbit interaction and the loss of time-inversion symmetry.

This is known as spin polarization.

It turns out, when electron spin is polarized, electrons can tunnel much easier and farther because one of the two spin components has a larger transmission probability.

Mujica likens it to a bullet going through the barrel of a gun. The first guns that were ever made all had smooth, hollowed-out barrels. But when grooves were etched, it gave the bullet a spin that allowed it to travel straighter and farther. Also, it is easy to understand with this simple analogy that bullets rotating clockwise will not go through counter-clockwise designed barrels, and vice versa. A classical analogy to what happens with electron spins.

And so, for their second set of experiments, they willuse magnetic substrates, nanoscale chemical patterning, andmultimodalspin-polarized scanningtunneling microscopyand spectroscopieswith orientedenantiomeric pairs of DNAandintercalated metalstoelucidate and to quantifythe molecular and interface contributionstochirality-induced spin selectivity.

Since most biological molecules, including amino acids inproteins and nucleotides in RNA and DNA, are chiral, thecriticalroles of spin polarization inelectron transport within and between biological molecules will be determined.

Finally, electrons have a dual particle-wave quantum nature; they have particle-like properties such as mass and charge, but their dynamics and propagation follows the rules of wave quantum mechanics.

In biology, as the electrons encounter other molecules or molecular barriers like cell membranes, they are scattered, and their wave properties are modified. Two wave sources arecoherentif their frequency and waveform are identical. If not, the waves can be canceled or enhanced due to interference. This interference can be destructive and leads to noise, which can also be due to thermal interactions.

Spin coherence can coexist with spin polarization Mujica said. What it means is that you have in-phase transport, so you're not reducing the intensity of the wave, and we're not changing the phase of a wave associated to that transfer.

Spin coherence is intimately associated to another quantum process, entanglement, that is of fundamental importance in quantum information and quantum computing.

Mujica says this is a high-risk, high-reward project that may upset the current conventional wisdom in quantum biology.

I mean, the common knowledge was that you couldn't have coherence in a quantum biological system, because the environmental effects would destroy coherence in a very short time.

They will try to put it all together by determining how chirality influences theelectronic, vibrational and spin-polarized electron transferfrom electrondonors to acceptor sites as spin-coherent electron pairs are generated in photo-induced electron transfer reactions.

Essentially, the grant focuses on the role of spin-polarized electrons and how it influences the behavior of biological systems, especially the length and temperature dependence, and how spin polarization and spin coherence can coexist, Mujica said. These are key unsolved issues in biological electron-transfer reactions.

In addition tostudying the unexplored roles of spin coherence in quantum biology, Mujicas team will study how it can coexist with spinpolarization and how, or if, it can create what is referred to as the spooky "action at a distance," or quantum entangled states.

The overarching Keck grant goal is to answer these questions, and the contributions of three key ingredients: tunneling, spin and coherence. These are central to discovering the underpinnings of the emerging field of quantumbiology.

By exploring these questions, Mujicas team ultimately hopes to use the Keck grant as a catalyst to create an ASU center for quantum biology, and further down the road, practical applications, such as quantum information and computing. All this could help position ASU in quantum technologies and information efforts, which are of strategic importance for the U.S.

If we can provide enough evidence, we hope to unveil some very important questions that will be crucial for an ASU effort in quantum information sciences, and this is something that we are starting with efforts in engineering and physics, Mujica said.

We want to weigh in on the roadmap to be able to use molecules for quantum information. From our perspective, we really think of this as a step in the direction of defining our capabilities of using quantum biology in molecular quantum information sciences, a field that is experiencing a true renaissance.

Originally posted here:
Keck award will help scientists take quantum leap to explore the mysteries of life - ASU News Now