Наукова робота

Наукова діяльність кафедри охоплює широкий спектр тем: від теоретичних досліджень в галузі квантової фізики до прикладних розробок в електроніці та енергетиці. Наші студенти активно беруть участь у наукових проєктах, презентують свої результати на конференціях і публікуються у міжнародних журналах.

Наукова робота студентів

Наші студенти беруть участь у науковій роботі кафедри і виступають з доповідями на щорічних студентських наукових конференціях ХНУ.

• Святушенко Михайло. ЕТ-21-1.
  Вплив вищих гармонік на роботу асинхронних двигунів
• Лучко Сергій. ЕМ-20-1.
  Вплив несинусоїдального режиму мережі на роботу силових трансформаторів.

Новини фізики з усього світу

• TaIrTe₄ photodetectors show promise for highly sensitive room-temperature THz sensing
  03.07.2025
  Terahertz radiation (THz), electromagnetic radiation with frequencies ranging between 0.1 and 10 THz, could be leveraged to develop various new technologies, including imaging and communication systems. So far, however, a lack of fast and sensitive detectors that can detect radiation across a wide range of frequencies has limited the development of these THz-sensing technologies.
• Quantum computer simulates spontaneous symmetry breaking at zero temperature
  02.07.2025
  For the first time, an international team of scientists has experimentally simulated spontaneous symmetry breaking (SSB) at zero temperature using a superconducting quantum processor. This achievement, which was accomplished with over 80% fidelity, represents a milestone for quantum computing and condensed matter physics.
• Slithering snakes: The science behind the motion of a young anaconda
  02.07.2025
  The motion of snakes has long fascinated humans: they undulate, they sidewind, they crawl, they even fly.
• Shape-shifting particles allow temperature control over fluid flow and stiffness
  02.07.2025
  Imagine a liquid that flows freely one moment, then stiffens into a near-solid the next, and then can switch back with a simple change in temperature. Researchers at the University of Chicago Pritzker School of Molecular Engineering and NYU Tandon have now developed such a material, using tiny particles that can change their shape and […]

• This breakthrough turns old tech into pure gold — No mercury, no cyanide, just light and salt
  27.06.2025
  At Flinders University, scientists have cracked a cleaner and greener way to extract gold—not just from ore, but also from our mounting piles of e-waste. By using a compound normally found in pool disinfectants and a novel polymer that can be reused, the method avoids toxic chemicals like mercury and cyanide. It even works on […]
• Graphene just unlocked “impossible” quantum currents without magnets
  27.06.2025
  Researchers have achieved a major breakthrough by generating quantum spin currents in graphene—without relying on bulky magnetic fields. By pairing graphene with a magnetic material, they unlocked a powerful quantum effect that allows electrons to carry information through their spins alone. This discovery could spark a new era of faster, more energy-efficient spin-based technologies.
• Self-lighting chip uses quantum tunneling to spot a trillionth of a gram
  27.06.2025
  Imagine detecting a single trillionth of a gram of a molecule—like an amino acid—using just electricity and a chip smaller than your fingernail. That’s the power of a new quantum-enabled biosensor developed at EPFL. Ditching bulky lasers, it taps into the strange world of quantum tunneling, where electrons sneak through barriers and release light in […]
• One shot, game changed: How RAVEN captured a petawatt laser and supercharged fusion research
  27.06.2025
  Scientists have developed a groundbreaking technique called RAVEN that can capture the full complexity of an ultra-intense laser pulse in a single shot—something previously thought nearly impossible. These pulses, capable of accelerating particles to near light speed, were once too fast and chaotic to measure precisely in real time. With RAVEN, researchers can now instantly […]

• Rice University breakthrough keeps CO₂ electrolyzers running 50x longer
  22.06.2025
  A Rice University team discovered that bubbling CO₂ through a mild acid dramatically improves the lifespan and efficiency of electrochemical devices that convert CO₂ into useful fuels. This simple trick prevents salt buildup—a major barrier to commercialization—by altering local chemistry just enough to keep salts dissolved and flowing. The result? A device that ran for […]
• Heavy particles, big secrets: What happened right after the Big Bang
  17.06.2025
  Smashing atomic nuclei together at mind-bending speeds recreates the fiery conditions of the early universe and scientists are finally getting a better handle on what happens next. A sweeping new study dives deep into how ultra-heavy particles behave after these high-energy collisions, revealing they don t just vanish after the initial impact but continue interacting […]
• Scientists just solved a 40-year-old mystery about quasicrystals
  14.06.2025
  Scientists at the University of Michigan have unlocked a long-standing mystery about quasicrystals exotic materials that straddle the line between the orderly structure of crystals and the chaos of glass. These rare solids, which once seemed to break the rules of physics, are now shown to be fundamentally stable through cutting-edge quantum simulations. The findings […]
• Guest molecules ride perfect waves in dna droplets—A breakthrough for synthetic biology
  13.06.2025
  Scientists have uncovered a previously unknown type of molecular motion inside DNA-based droplets: instead of spreading randomly, guest molecules advance in an organized wave. This surprising discovery opens the door to understanding how cells might organize internal processes without membranes. Using customizable DNA condensates as experimental models, the team showed how molecular waves emerge through […]