Nicolas P. Mauranyapin
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View article: Nanomechanical Error Correction
Nanomechanical Error Correction Open
Error correction is essential for modern computing systems, enabling information to be processed accurately even in the presence of noise. Here, we demonstrate a new approach which exploits an error correcting phase that emerges in a syste…
View article: Membrane phononic integrated circuits
Membrane phononic integrated circuits Open
Phononic circuits constructed from high tensile stress membranes offer a range of desirable features such as high acoustic confinement, controllable nonlinearities, low mass, compact footprint, and ease of fabrication. This tutorial presen…
View article: Label-free microscope for rheological imaging of cells
Label-free microscope for rheological imaging of cells Open
Many essential cellular functions depend on the viscoelastic properties of the cytoplasm. While techniques such as optical tweezers and atomic force microscopy can measure these properties, their reliance on localized probes prevents intra…
View article: Engineering error correcting dynamics in nanomechanical systems
Engineering error correcting dynamics in nanomechanical systems Open
Nanomechanical oscillators are an alternative platform for computation in harsh environments. However, external perturbations arising from such environments may hinder information processing by introducing errors into the computing system.…
View article: Fast biological imaging with quantum-enhanced Raman microscopy
Fast biological imaging with quantum-enhanced Raman microscopy Open
Stimulated Raman scattering (SRS) microscopy is a powerful label-free imaging technique that probes the vibrational response of chemicals with high specificity and sensitivity. High-power, quantum-enhanced SRS microscopes have been recentl…
View article: Fast biological imaging with quantum-enhanced Raman microscopy
Fast biological imaging with quantum-enhanced Raman microscopy Open
Stimulated Raman scattering (SRS) microscopy is a powerful label-free imaging technique that probes the vibrational response of chemicals with high specificity and sensitivity. High-power, quantum-enhanced SRS microscopes have been recentl…
View article: Directional emission in an on-chip acoustic waveguide
Directional emission in an on-chip acoustic waveguide Open
Integrated acoustic circuits leverage guided acoustic waves for applications ranging from radio frequency filters to quantum state transfer, biochemical sensing, and nanomechanical computing. In many applications, it is desirable to have a…
View article: Directional emission in an on-chip acoustic waveguide
Directional emission in an on-chip acoustic waveguide Open
Integrated acoustic circuits leverage guided acoustic waves for applications ranging from radio-frequency filters to quantum state transfer, biochemical sensing and nanomechanical computing. In many applications it is desirable to have a m…
View article: Cascading of Nanomechanical Resonator Logic
Cascading of Nanomechanical Resonator Logic Open
Nanomechanical systems have been proposed as an alternative computing platform for high radiation environments, where semiconductor electronics traditionally fail, as well as to allow improved gate densities and energy consumption. While t…
View article: Quantum Biotechnology
Quantum Biotechnology Open
Quantum technologies leverage the laws of quantum physics to achieve performance advantages in applications ranging from computing to communications and sensing. They have been proposed to have a range of applications in biological science…
View article: Scalable nanomechanical logic gate
Scalable nanomechanical logic gate Open
Nanomechanical computers promise robust, low energy information processing. However, to date, electronics have generally been required to interconnect gates, while no scalable, purely nanomechanical approach to computing has been achieved.…
View article: Modelling of the dynamic polarizability of macromolecules for single-molecule optical biosensing
Modelling of the dynamic polarizability of macromolecules for single-molecule optical biosensing Open
View article: Interferometric Biosensing
Interferometric Biosensing Open
InterferometricInterferometric biosensors characterise biological specimens via the effects they have on the interference between two optical fields. Generally, one field is arranged to interact with the specimen, perhaps propagating throu…
View article: Dynamic polarizability of macromolecules for single-molecule optical\n biosensing
Dynamic polarizability of macromolecules for single-molecule optical\n biosensing Open
The structural dynamics of macromolecules is important for most microbiological processes, from protein folding to the origins of neurodegenerative disorders. Noninvasive measurements of these dynamics are highly challenging. Recently, opt…
View article: Dynamic polarizability of macromolecules for single-molecule optical biosensing
Dynamic polarizability of macromolecules for single-molecule optical biosensing Open
The structural dynamics of macromolecules is important for most microbiological processes, from protein folding to the origins of neurodegenerative disorders. Noninvasive measurements of these dynamics are highly challenging. Recently, opt…
View article: The sounds of science - A symphony for many instruments and voices
The sounds of science - A symphony for many instruments and voices Open
Sounds of Science is the first movement of a symphony for many (scientific) instruments and voices, united in celebration of the frontiers of science and intended for a general audience. John Goodenough, the maestro who transformed energy …
View article: Propagation and Imaging of Mechanical Waves in a Highly Stressed Single-Mode Acoustic Waveguide
Propagation and Imaging of Mechanical Waves in a Highly Stressed Single-Mode Acoustic Waveguide Open
We demonstrate a single-mode phononic waveguide that enables robust\npropagation of mechanical waves. The waveguide is a highly-stressed silicon\nnitride membrane that supports the propagation of out-of-plane modes. In direct\nanalogy to r…
View article: Evanescent single-molecule biosensing with quantum limited precision
Evanescent single-molecule biosensing with quantum limited precision Open
Sensors that are able to detect and track single unlabelled biomolecules are an important tool both to understand biomolecular dynamics and interactions at nanoscale, and for medical diagnostics operating at their ultimate detection limits…