Publications by authors named "Slobodianiuk D"
Raman spectroscopy provides non-destructive, label-free quantitative studies of chemical compositions at the microscale as used on NASA's Perseverance rover on Mars. Such capabilities come at the cost of high requirements for instrumentation. Here we present a centimeter-scale miniaturization of a Raman spectrometer using cheap non-stabilized laser diodes, densely packed optics, and non-cooled small sensors.
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- Current-induced self-sustained magnetization oscillations in spin-torque nano-oscillators (STNOs) show potential for developing advanced microwave sources and detectors.
- The study reveals the simultaneous emission of two different microwave frequencies (6 to 10 gigahertz) at very low power levels, which are associated with two coupled oscillation modes that can be adjusted.
- The research enhances understanding of the interaction between different magnon modes and suggests applications in improving telecommunications and neuromorphic systems through better frequency multiplexing.
Microwave emission from a parametrically pumped ferrimagnetic film of yttrium iron garnet was studied versus the magnon density evolution, which was detected by Brillouin light scattering spectroscopy. It has been found that the shutdown of external microwave pumping leads to an unexpected effect: The conventional monotonic decrease of the population of parametrically injected magnons is accompanied by an explosive behavior of electromagnetic radiation at the magnon frequency. The developed theory shows that this explosion is caused by a nonlinear energy transfer from parametrically driven short-wavelength dipolar-exchange magnons to a long-wavelength dipolar magnon mode effectively coupled to an electromagnetic wave.
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