All-Solid-State Optical-Field-Sensitive Detector for Sub-Nanojoule Pulses Using Metal–Insulator Hybrid Nanostructure

Arai, Ko; Okazaki, Daiki; Morichika, Ikki; Ashihara, Satoshi

doi:10.1021/acsphotonics.2c01855

ACS Photonics

2023

DOI: 10.1021/acsphotonics.2c01855

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All-Solid-State Optical-Field-Sensitive Detector for Sub-Nanojoule Pulses Using Metal–Insulator Hybrid Nanostructure

Ko Arai

Daiki Okazaki

Ikki Morichika

et al.

Abstract: We develop an all-solid-state, metal−insulator hybrid device that is capable of detecting an optical field of sub-nanojoule pulses via opticalfield-induced tunneling. The tunneling at a gold/aluminum-oxide (Al 2 O 3 ) interface is driven by an enhanced near-field of a metal−insulator−metal plasmon. Compared to a conventional device with a metal/air interface, we achieve a substantial increase in the tunneling current because of a reduced barrier height, a reduced effective mass of tunneled electrons, an increa… Show more

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Cited by 3 publications

References 41 publications

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Theory of Nonlinear Photoconductive Sampling in Atomic Gases

Agarwal,

Scrinzi,

Krausz

et al. 2023

Annalen der Physik

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The formation and evolution of electron wave packets in the process of strong‐field ionization is one of the major research topics in attosecond science. The recently developed technique of nonlinear photoconductive sampling (NPS) requires a detailed understanding of these dynamics and provides a new approach to studying them. This work is motivated by the lack of a solid theoretical foundation for NPS measurements. The analysis shows that, for NPS in atomic gases, the strong‐field approximation provides an adequate description of the ionization dynamics but makes a significant error in predicting the spectral response function because the Coulomb interaction between photoelectrons and their parent ions significantly affects the motion of the electron wave packets.

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Theory of Nonlinear Photoconductive Sampling in Atomic Gases

Agarwal,

Scrinzi,

Krausz

et al. 2023

Annalen der Physik

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show abstract

Petahertz electronics

Heide,

Keathley,

Kling

2024

Nat Rev Phys

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Lightwave-electronic harmonic frequency mixing

Yeung,

Chou,

Turchetti

et al. 2024

Sci. Adv.

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Electronic frequency mixers are fundamental building blocks of electronic systems. Harmonic frequency mixing in particular enables broadband electromagnetic signal analysis across octaves of spectrum using a single local oscillator. However, conventional harmonic frequency mixers do not operate beyond hundreds of gigahertz to a few terahertz. If extended to the petahertz scale in a compact and scalable form, harmonic mixers would enable field-resolved optical signal analysis spanning octaves of spectra in a monolithic device without the need for frequency conversion using nonlinear crystals. Here, we demonstrate lightwave-electronic harmonic frequency mixing beyond 0.350 PHz using plasmonic nanoantennas. We demonstrate that the mixing process enables complete, field-resolved detection of spectral content far outside that of the local oscillator, greatly extending the range of detectable frequencies compared to conventional heterodyning techniques. Our work has important implications for applications where optical signals of interest exhibit coherent femtosecond-scale dynamics spanning multiple harmonics.

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All-Solid-State Optical-Field-Sensitive Detector for Sub-Nanojoule Pulses Using Metal–Insulator Hybrid Nanostructure

Cited by 3 publications

References 41 publications

Theory of Nonlinear Photoconductive Sampling in Atomic Gases

Theory of Nonlinear Photoconductive Sampling in Atomic Gases

Petahertz electronics

Lightwave-electronic harmonic frequency mixing

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