Publications by authors named "P Di Natale"
Nowadays, the scientific community and industry are increasingly pressed to provide solutions for developing compact and highly-performing trace-gas sensors for several applications of crucial importance, such as environmental monitoring or medical diagnostics. In this context, this work describes a novel configuration, making use of a mid-IR spectrophone combining the compactness of a photo-acoustic setup, a non-conventional micro-electro-mechanical (MEMS) acousto-to-voltage transducer, and the sensitivity enhancement given by a cost-effective and easy-to-build dual-tube resonator configuration. In the optimal condition of sample pressure, the system developed in this work can achieve a minimum detection limit (MDL) equal to 0.
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- The sensitivity of photo-acoustic trace-gas sensors largely depends on the performance characteristics of acoustic transducers, particularly those based on silicon MEMS.
- This research focuses on evaluating the mechanical properties of these MEMS, specifically their resonance frequency, quality factor, and minimum detection limit (MDL) when used in photoacoustic setups.
- A Continuous-Wave quantum cascade laser was used to detect nitric oxide transitions, revealing that higher resonance frequencies lead to lower MDLs, achieving a notable sensitivity of 15 parts per billion at around 10 kHz.
Since the beginning of this millennium, frequency comb generators have reshaped frequency metrology and related areas. After more than two decades since their first realization, several other ways to generate frequency combs, in any spectral region, have been demonstrated, each way with its peculiar features. This trend has triggered the need to quantitatively assess how close the new comb realizations are to an ideal comb, a feature that will be called combness throughout this paper.
View Article and Find Full Text PDFIn a comment to our recent publication, Nicholls question our results and interpretation based on theoretical arguments that reveal a profound misunderstanding of our publication.
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- The digital economy's growth has affected labor markets, particularly in food delivery, raising concerns about occupational safety and health (OSH) for riders in Milan, Italy.
- The study involved structured interviews with 240 delivery riders, primarily male and under 35, revealing high rates of road accidents and health issues like musculoskeletal disorders.
- Findings highlight the need for collaborative efforts among policymakers and stakeholders to improve OSH standards and working conditions for food delivery riders, contributing to sustainable development goals.