Andrew Paulsen scite author profile

Broadband terahertz radiation potentially has extensive applications, ranging from personal health care to industrial quality control and security screening. While traditional methods for broadband terahertz generation rely on bulky and expensive mode-locked lasers, frequency combs based on quantum cascade lasers (QCLs) can provide an alternative compact, high power, wideband terahertz source. QCL frequency combs incorporating a heterogeneous gain medium design can obtain even greater spectral range by having multiple lasing transitions at different frequencies. However, despite their greater spectral coverage, the comparatively low gain from such gain media lowers the maximum operating temperature and power. Lateral heterogeneous integration offers the ability to cover an extensive spectral range while maintaining the competitive performance offered from each homogeneous gain media. Here, we present the first lateral heterogeneous design for broadband terahertz generation: by combining two different homogeneous gain media, we have achieved a two-color frequency comb spaced by 1.5 THz.

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A path toward enhanced endurance of a UAV using IMM solar cells

Scheiman

Hoheisel

Edwards

et al. 2016

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Enhanced Endurance of a Unmanned Aerial Vehicles Using High Efficiency Si and III-V Solar Cells

Scheiman

Hoheisel

Edwards

et al. 2017

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K-space design of terahertz plasmonic filters

Paulsen

Nahata

2015

Optica

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Wireless communication systems in the terahertz (THz) frequency range promise to dramatically increase available bandwidth in the electromagnetic spectrum. These wireless systems will require filtering techniques capable of operating in this relatively unused part of the spectrum. Here, we report a versatile technique for designing different classes of THz plasmonic filters based on a k-space methodology, in which the desired frequency response is mapped into two-dimensional (2D) k-space and then inverse Fourier transformed into the spatial domain. We use a recently developed inkjet printing technique to fabricate the spatial patterns allowing for grayscale conductivity variation. In general, any technique that allows for high-fidelity reproduction of the real-space grayscale variation in the fabricated plasmonic structure can be used. We demonstrate the flexibility of this approach by creating several classes of filters that allow for changes in the relative magnitudes in multiresonant filters; the polarization dependence, where the anisotropy can be carefully controlled; and the resonance bandwidth. We further demonstrate that, by cascading or adding filter functions together, even more complex filter designs can be achieved. We expect this approach to dramatically expand the design capabilities for filter technology for THz systems applications, such as THz wireless communications as well as applications in other spectral regions.

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Andrew Paulsen

High-power portable terahertz laser systems

Lateral Heterogeneous Integration of Quantum Cascade Lasers

A path toward enhanced endurance of a UAV using IMM solar cells

Enhanced Endurance of a Unmanned Aerial Vehicles Using High Efficiency Si and III-V Solar Cells

K-space design of terahertz plasmonic filters

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