Miniaturized Fourier-transform Raman spectrometer systems and methods

Assignee

• Massachusetts Institute of Technology · US

Inventors

• Tian Gu · Fairfax, US
• Derek Kita · Cambridge, US
• Juejun Hu · Newton, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG01N21/65
• WIPO fieldMeasurement
• WIPO sectorInstruments

Abstract

State-of-the-art portable Raman spectrometers use discrete free-space optical components that must be aligned well and that don't tolerate vibrations well. Conversely, the inventive spectrometers are made with monolithic photonic integration to fabricate some or all optical components on one or more planar substrates. Photonic integration enables dense integration of components, eliminates manual alignment and individual component assembly, and yields superior mechanical stability and resistance to shock or vibration. These features make inventive spectrometers especially suitable for use in high-performance portable or wearable sensors. They also yield significant performance advantages, including a large (e.g., 10,000-fold) increase in Raman scattering efficiency resulting from on-chip interaction of the tightly localized optical mode and the analyte and a large enhancement in spectral resolution and sensitivity resulting from the integration of an on-chip Fourier-transform spectrometer.