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

• Quantum 'curvature' warps electron flow, hinting at new electronics possibilities
  02.09.2025
  How can data be processed at lightning speed, or electricity conducted without loss? To achieve this, scientists and industry alike are turning to quantum materials, governed by the laws of the infinitesimal. Designing such materials requires a detailed understanding of atomic phenomena, much of which remains unexplored.
• Something from nothing: Physicists model vacuum tunneling in a 2D superfluid
  01.09.2025
  In 1951, physicist Julian Schwinger theorized that by applying a uniform electrical field to a vacuum, electron-positron pairs would be spontaneously created out of nothing, through a phenomenon called quantum tunneling.
• Shaping future electronics with light: Experiment demonstrates ultrafast light control of ferroelectric properties
  01.09.2025
  Ferroelectrics are seen as promising candidates for the electronics of tomorrow. An experiment at the world's largest X-ray laser—the European XFEL in Schenefeld near Hamburg—now shows that their properties can be controlled with high precision at ultrafast time scales—using light.
• Microscale mixing without turbulence: Scientists discover limits to information erasure in viscous fluids
  01.09.2025
  In turbulent fluids, mixing of the components happens easily. However, in more viscous fluids such as those enclosed within cellular compartments, the intermixing of particles and molecules is much more challenging. As time also plays a role in such systems, the slow mixing by molecular movement is typically not sufficient and efficient stirring strategies are […]

• NASA’s Webb Telescope just found 300 galaxies that defy explanation
  31.08.2025
  Astronomers at the University of Missouri, using the James Webb Space Telescope, have uncovered 300 unusually bright cosmic objects that may be some of the earliest galaxies ever formed. By applying techniques like infrared imaging, dropout analysis, and spectral energy distribution fitting, the team has identified candidates that could force scientists to rethink how galaxies […]
• Scientists create scalable quantum node linking light and matter
  29.08.2025
  Quantum scientists in Innsbruck have taken a major leap toward building the internet of the future. Using a string of calcium ions and finely tuned lasers, they created quantum nodes capable of generating streams of entangled photons with 92% fidelity. This scalable setup could one day link quantum computers across continents, enable unbreakable communication, and […]
• A strange quantum effect could power future electronics
  29.08.2025
  Rice University physicists confirmed that flat electronic bands in kagome superconductors aren’t just theoretical, they actively shape superconductivity and magnetism. This breakthrough could guide the design of next-generation quantum materials and technologies.
• Scientists finally solve a century-old quantum mystery
  29.08.2025
  A Vermont research team has cracked a 90-year-old puzzle, creating a quantum version of the damped harmonic oscillator. By reformulating Lamb’s classical model, they showed how atomic vibrations can be fully described while preserving quantum uncertainty. The discovery could fuel next-generation precision tools.

• Scientists unlock nature’s secret to superfast mini robots
  24.08.2025
  Ripple bugs’ fan-like legs inspired engineers to build the Rhagobot, a tiny robot with self-morphing fans. By mimicking these insects’ passive, ultra-fast movements, the robot gains speed, control, and endurance without extra energy—potentially transforming aquatic microrobotics.
• Gold refuses to melt at temperatures hotter than the Sun’s surface
  18.08.2025
  For the first time, researchers have measured atomic temperatures in extreme matter and found gold surviving at 19,000 kelvins, more than 14 times its melting point. The result dismantles a 40-year-old theory of heat limits.
• Gold survives impossible heat, defying physics limits
  11.08.2025
  Physicists have heated gold to over 19,000 Kelvin, more than 14 times its melting point, without melting it, smashing the long-standing “entropy catastrophe” limit. Using an ultra-fast laser pulse at SLAC’s Linac Coherent Light Source, they kept the gold crystalline at extreme heat, opening new frontiers in high-energy-density physics, fusion research, and planetary science.
• AI cracks a meteorite’s secret: A material that defies heat
  04.08.2025
  A rare mineral from a 1724 meteorite defies the rules of heat flow, acting like both a crystal and a glass. Thanks to AI and quantum physics, researchers uncovered its bizarre ability to maintain constant thermal conductivity, a breakthrough that could revolutionize heat management in technology and industry.