Projects per year
Abstract
Room-temperature detection of molecular vibrations in the mid-infrared (MIR, λ = 3–30 µm) has numerous applications, including real-time gas sensing, medical imaging and quantum communication. However, existing technologies rely on cooled semiconductor detectors because of thermal noise limitations. One way to overcome this challenge is to upconvert the low-energy MIR photons into high-energy visible wavelengths (λ = 500–800 nm) where detection of single photons is easily achieved using silicon technologies. This process suffers from weak cross-sections and the MIR-to-visible wavelength mismatch, limiting its efficiency. Here we exploit molecular emitters possessing both MIR and visible transitions from molecular vibrations and electronic states, coupled through Franck–Condon factors. By assembling molecules into a plasmonic nanocavity resonant at both MIR and visible wavelengths, and optically pumping them below the electronic absorption band, we show transduction of MIR light. The upconverted signal is observed as enhanced visible luminescence. Combining Purcell-enhanced visible luminescence with enhanced rates of vibrational pumping gives transduction efficiencies of >10%. MIR frequency-dependent upconversion gives the vibrational signatures of molecules assembled in the nanocavity. Transient picocavity formation further confines MIR light down to the single-molecule level. This allows us to demonstrate single-molecule MIR detection and spectroscopy that is inaccessible to any previous detector.
Original language | English |
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Journal | Nature Photonics |
Early online date | 28 Aug 2023 |
DOIs | |
Publication status | E-pub ahead of print - 28 Aug 2023 |
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Dive into the research topics of 'Single-molecule mid-infrared spectroscopy and detection through vibrationally assisted luminescence'. Together they form a unique fingerprint.Projects
- 1 Finished
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Seeing the invisible: Upconverting THz light from vibrations of quantum emitters
Chikkaraddy, R. (Principal Investigator)
31/03/23 → 30/03/24
Project: Research Councils