Rotating spintronic terahertz emitter optimized for microjoule pump-pulse 
energies and megahertz repetition rates

Vaitsi, Alkisti; Sleziona, Vivien; Parra Lopez, Luis; Behovits, Yannic; Schulz, Fabian; Martin Sabanés, Natalia; Kampfrath, Tobias; Wolf, Martin; Seifert, Tom S.; Müller, Melanie

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Rotating spintronic terahertz emitter optimized for microjoule pump-pulse energies and megahertz repetition rates

Vaitsi, A., Sleziona, V., Parra Lopez, L., Behovits, Y., Schulz, F., Martin Sabanés, N., et al. (in preparation). Rotating spintronic terahertz emitter optimized for microjoule pump-pulse energies and megahertz repetition rates.

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Item Permalink: https://hdl.handle.net/21.11116/0000-000F-3DB3-3 Version Permalink: https://hdl.handle.net/21.11116/0000-000F-3DB4-2

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Creators:
Vaitsi, Alkisti¹, Author
Sleziona, Vivien¹, Author
Parra Lopez, Luis¹, Author
Behovits, Yannic¹, Author
Schulz, Fabian¹, Author
Martin Sabanés, Natalia¹, Author
Kampfrath, Tobias, Author
Wolf, Martin¹, Author
Seifert, Tom S., Author
Müller, Melanie¹, Author

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1Physical Chemistry, Fritz Haber Institute, Max Planck Society, ou_634546

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Free keywords: Physics, Optics, physics.optics, Condensed Matter, Materials Science, cond-mat.mtrl-sci

Abstract: Spintronic terahertz emitters (STEs) are powerful sources of ultra-broadband single-cycle terahertz (THz) field transients. They work with any pump wavelength, and their polarity and polarization direction are easily adjustable. However, at high pump powers and high repetition rates, STE operation is hampered by a significant increase in the local temperature. Here, we resolve this issue by rotating the STE at a few 100 Hz, thereby distributing the absorbed pump power over a larger area. Our approach permits stable STE operation at a fluence of ~1 mJ/cm² with up to 18 W pump power at megahertz repetition rates, corresponding to pump-pulse energies of a few 10 μJ and a power density far above the melting threshold of metallic films. The rotating STE is of interest for all ultra-broadband high-power THz applications requiring high repetition rates. As an example, we show that THz pulses with peak fields of 10 kV/cm can be coupled to a THz-lightwave-driven scanning tunneling microscope at 1 MHz repetition rate, demonstrating that the rotating STE can compete with standard THz sources such as LiNbO₃.

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Language(s): eng - English

Dates: Created: 2024-04-25

Publication Status: Not specified

Pages: 22 pages, 4 figures, supplementary material included

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Identifiers: arXiv: 2404.16976

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