She steals a starter horse from Star and Marco's shopping cart and tricks Marco into mistaking dragon attractant spray for dragon repellent. However, Higgs calls Marco a nerd as soon as they part ways, and when the sale begins, Higgs and her fellow squires sabotage Star and Marco, undermining their efforts to buy the things they need. She even gives Marco some shopping advice for the blowout sale. When she first meets Star Butterfly and Marco Diaz, Higgs acts friendly and respectful, complimenting Marco on his organizational skills and squire potential. Higgs appears in " Trial by Squire" as one of several squires taking part in Quest Buy's 10,000th Annual Squire Blowout Sale. She also comes off as resentful and envy-prone to other's deserved success and friendships. However, it later turned out to be a ruse not only is she highly competitive and nasty, but she also relies on underhanded tactics to misguide her opponents with the intention to usurp the rest. Initially during her debut, Higgs appeared to be amiable and approachable. She wears a blue tunic with red spiked shoulder pads, a red belt, white pants, red thigh-length boots, and pale yellow elbow-length armbands. The philosophical implications of it are interesting.Higgs is a teenage girl, about the same height as Star Butterfly, with slightly-dark cream-colored skin, short orange hair, green eyes, and freckles. But then that begs the question, ‘How specific do we go?’ If it’s a broken symmetry, maybe it’s just chaos and there is a multiverse theory and this super symmetry is just a garbage theory. It could be that instead of having this mirror image super symmetry, there could be a mirror image with a little crack in the mirror, and that might be the missing piece. So, one way that it could make sense is if every particle had basically a mirror image particle of itself and the standard model was doubled. “Not everything matches up exactly as we think that it should if the standard model was the end of the story. “I always say that what I’m doing is kind of like looking for a needle in a haystack, but not even knowing if there is a needle at all,” explains Osojnak. The other half of my time is dedicated to working on a supersymmetry analysis.” I didn’t get to be in the actual control room for the first beams of Run Three, but I got to be in one of the other ATLAS buildings with a bunch of people watching it occur and cheering with everyone, which was really fun. “That involves a lot of time in the control room, which is really exciting, especially since the start of run three last week. “I work on the transition radiation tracker of ATLAS,” says Osojnak. Most of us here learn enough of it to get by from research experience.” “This is more along the lines of the kind of stuff you might study in electrical engineering. It’s hands on, dealing with electronics and writing what we call low-level code, which just means that the code that we write is meant to interact with electronics and hardware,” says Gardner. “What I do right now is mostly instrumentation work. Gardner and Osojnak describe their work as part of Penn’s team. Over 600 institutes and universities around the world use CERN’s facilities. It speeds up and increases the energy of a beam of particles by generating electric fields that accelerate the particles, and magnetic fields that steer and focus them, which gives researchers a rare glimpse into the basic constituents of matter. The LHC, located in Geneva on the Franco-Swiss border, is the world’s largest and most powerful particle accelerator, a 27-kilometer ring of superconducting magnets. This came after a three-year-long maintenance and upgrade phase, and on the tail of the 10th anniversary of one of the most significant discoveries associated with CERN: the Higgs boson, “the fundamental particle associated with the Higgs field, a field that gives mass to other fundamental particles such as electrons and quarks.” On July 5, 2022, the European Organization for Nuclear Research, more commonly referred to as CERN, brought all LHC systems online for its third run. (Image: Courtesy of Gwen Gardner and Lauren Osojnak) Gwen Gardner (third from right) and Lauren Osojnak (second from right) below the detector, standing in front of one of the access points they use to climb up to our electronics.
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