New high-performance spintronic terahertz emitter T-Spin2X available now. Beating gold-standard tilted-pulse-front lithium niobate terahertz sources in amplitude and bandwidth. Time to upgrade your terahertz high-field source! https://t.co/cYBeIB2KbK
Tomorrow, I will give a live online SPICE-Spin+X seminar @SPICE_Mainz . Come and join if you want to learn more about terahertz, spins and orbits. https://t.co/msE1qLeSZA
Great work by Darren Graham @DMGrahamTHz and his team showing how to use the spintronic terahertz emitter technology to generate narrowband THz pulses with tuning of linewidth and center frequency.
Check out our latest paper in Appl. Phys. Lett. where we demonstrate that a spintronic THz emitter can generate narrowband THz pulses with continuous tuning of the frequency and linewidth (and a nice cover image too) @UoMPhysics@PSI_UoM @astecstfc @cockcroft_news
Our latest efforts to build a "perfect" terahertz emitter for linear spectroscopy from 1-40 THz: https://t.co/x49mVAq30y. A hybrid source featuring ultrashort-THz-waveform synthesis on demand. Great work by @afnan_alostaz and the teams from Berlin and Greifswald @spintronicsHGW.
Treahertz spintronics moving from generation towards detection. Promising approach for future efficient and ultrabroadband terahertz detectors. https://t.co/ddaEJueBrV
Do you need to know the precise temporal shape and amplitude of your broadband, high-field terahertz source? This is a useful approach for you: 10.1103/PhysRevApplied.20.034037
Great work by Reza @reza_rouzegar and Alexander Chekhov from the THz physics group @PhysikFUBerlin .
Moving towards fully fiber-coupled ultrabroadband spintronic terahertz emission (https://t.co/06prhPvpYK). Contact us if you are interested in this innovative technology.
Smaller than a fly: Spintronic terahertz emission from the end of an optical fiber - it does not get simpler than that (https://t.co/Jzm6C3pUqF). Great collaboration with the teams from @FraunhoferITWM@teraspintec@iemn_fr@uni_mainz@PhysikFUBerlin .
Next-gen spintronic emitters @teraspintec outperforming gold-standard THz emitters like LiNbO3 with peak-fields exceeding 1.5 MV/cm. Great work by Reza @reza_rouzegar and Alexander Chekhov. For more details: https://t.co/04sRNgPVbs #TerahertzDoesItBetter
Can orbitronics boost the efficiency of next-generation spintronic terahertz emitters? First results look very promising. https://t.co/nyUYfzWQRS #terahertz@PhysikFUBerlin
Extremely long propagation distances of THz orbital currents in tungsten: Check out our latest arXiv preprint https://t.co/Rfev4juAMw. This is a potential game changer for future high-speed data processing applications and THz emitters.#THzdoesitBetter@reza_rouzegar@DongwookGo
Introducing our broadband terahertz detector T-Sense1 along with more exiting THz sensing solutions. Go check them out https://t.co/Smt2TGjTKL. T-Sense1: The thinnest electro-optic THz detector on the market for the broadest bandwidth.
1.5 years of peer-reviewing later - it has been a long journey. In my opinion one of the key studies to enable pushing spintronic THz emitters to new levels of performance. Thanks Reza for your great efforts. @reza_rouzegar Editors suggestion: https://t.co/SvH0U6PQXC #THz
Great recent report from the German Space Agency featuring our ultrabroadband T-Spin2 terahertz emitter as a universal detector for ultrashort light pulses with wavelengths from the visible to the x-ray range. Want to learn more? https://t.co/lP0izLViTB #thzdoesitbetter
This study demonstrates the reversible voltage control of Terahertz wave polarization in wideband spintronic emitters, opening new paths for THz spectroscopy, polarimetry and ellipsometry techniques! @iemn_fr https://t.co/8vbTq4rVEy
A magnetometry tool to measure the change in a magnetization as a function of applied magnetic field through photo-excited emission of pulsed terahertz radiation from spintronic emitters. https://t.co/DgsITnrXga