https://www.swabianinstruments.com/zh/applications/materials-sciences/Recent content in Materials Sciences CN on Swabian InstrumentsHugozhFri, 19 Dec 2025 00:00:00 +0000https://www.swabianinstruments.com/zh/applications/slr-lidar-solutions-high-precision-remote-sensing/Wed, 10 Sep 2025 00:00:00 +0000https://www.swabianinstruments.com/zh/applications/slr-lidar-solutions-high-precision-remote-sensing/Next-generation multi-angle DLS turnkey design with built-in consistency checks, raw photon access, and intelligent spike filtering for fast, reliable particle sizing.https://www.swabianinstruments.com/zh/applications/odmr/Fri, 28 Feb 2025 00:00:00 +0000https://www.swabianinstruments.com/zh/applications/odmr/Optically detected magnetic resonance (ODMR) is a powerful technique widely used in quantum sensing, magnetic field measurement, and material analysis.https://www.swabianinstruments.com/zh/applications/brillouin-light-scattering-bls/Fri, 19 Dec 2025 00:00:00 +0000https://www.swabianinstruments.com/zh/applications/brillouin-light-scattering-bls/Brillouin Light Scattering (BLS) is a powerful optical spectroscopy technique used to probe phonons, magnons, and viscoelastic properties of materials across solid-state, biological, and sensing applications. Swabian Instruments Time Taggers play a critical role in modern BLS experiments by enabling picosecond-resolution photon time-stamping, reliable synchronization with interferometric setups, and real-time reconstruction of frequency-resolved spectra. By combining Time Taggers with Fabry–Pérot interferometry and single-photon detection, researchers achieve accurate, scalable, and time-resolved BLS measurements for materials science, spintronics, biomedical research, and remote sensing.https://www.swabianinstruments.com/zh/applications/quantum-dots/Tue, 18 Nov 2025 00:00:00 +0000https://www.swabianinstruments.com/zh/applications/quantum-dots/Swabian Instruments’ Time Tagger and Pulse Streamer provide picosecond-level timing resolution, fast digital pulse generation, and high data-throughput capabilities used in the characterization of quantum-dot single-photon sources.