Malte Welsch scite author profile

Malte Welsch

4Publications

22Citation Statements Received

38Citation Statements Given

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Affiliations

Technical University of Denmark, Helmholtz-Zentrum Dresden-Rossendorf, TU Dresden

Publications

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Up to 70 THz bandwidth from an implanted Ge photoconductive antenna excited by a femtosecond Er:fibre laser

et al. 2020

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Phase-stable electromagnetic pulses in the THz frequency range offer several unique capabilities in timeresolved spectroscopy. However, the diversity of their application is limited by the covered spectral bandwidth. In particular, the upper frequency limit of photoconductive emitters -the most widespread technique in THz spectroscopyreaches only up to 7 THz in regular transmission mode due to the absorption by infrared-active optical phonons. Here, we present ultra-broadband (extending up to 70 THz) THz emission from Au implanted Ge emitter which is compatible with a fibre laser operating at 1.2 and 1.55 m wavelengths at a repetition rates of 10 and 20 MHz, respectively. This opens a perspective for the development of compact THz photonic devices operating up to multi-THz frequencies and compatible with Si CMOS technology.

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Improved electrode design for interdigitated large-area photoconductive terahertz emitters

Singh¹,

Welsch²,

Winnerl³

et al. 2019

Opt. Express

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Scalable Large-Area Terahertz Emitters with Improved Electrode Design

Singh

Welsch

Winnerl

et al. 2019

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Non-plasmonic improvement in photoconductive THz emitters using nano- and micro-structured electrodes

et al. 2020

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We investigate here terahertz enhancement effects arising from micrometer and nanometer structured electrode features of photoconductive terahertz emitters. Nanostructured electrode based emitters utilizing the palsmonic effect are currently one of the hottest topics in the research field. We demonstrate here that even in the absence of any plasmonic resonance with the pump pulse, such structures can improve the antenna effect by enhancing the local d.c. electric field near the structure edges. Utilizing this effect in Hilbert-fractal and grating-like designs, enhancement of the THz field of up to a factor of ∼ 2 is observed. We conclude that the cause of this THz emission enhancement in our emitters is different from the earlier reported plasmonic-electrode effect in a similar grating-like structure. In our structure, the proximity of photoexcited carriers to the electrodes and local bias field enhancement close to the metallization cause the enhanced efficiency. Due to the nature of this effect, the THz emission efficiency is almost independent of the pump laser polarization. Compared to the plasmonic effect, these effects work under relaxed device fabrication and operating conditions.

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Malte Welsch

Up to 70 THz bandwidth from an implanted Ge photoconductive antenna excited by a femtosecond Er:fibre laser

Improved electrode design for interdigitated large-area photoconductive terahertz emitters

Scalable Large-Area Terahertz Emitters with Improved Electrode Design

Non-plasmonic improvement in photoconductive THz emitters using nano- and micro-structured electrodes

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