Andere Kunden interessierten sich auch für
![Entropy Application for Forecasting]( "Entropy Application for Forecasting")
Entropy Application for Forecasting66,99 €![Application of Liquid Chromatography-Mass Spectrometry and Related Techniques]( "Application of Liquid Chromatography-Mass Spectrometry and Related Techniques")
Application of Liquid Chromatography-Mass Spectrometry and Related Techniques93,99 €![Application of Biology to Cultural Heritage]( "Application of Biology to Cultural Heritage")
Application of Biology to Cultural Heritage69,99 €![Synthesis and Application of Luminescent Materials]( "Synthesis and Application of Luminescent Materials")
Synthesis and Application of Luminescent Materials49,99 €![Fungal Biotechnology and Application 2.0]( "Fungal Biotechnology and Application 2.0")
Fungal Biotechnology and Application 2.072,99 €![The Application of Spectral Techniques in Agriculture and Forestry]( "The Application of Spectral Techniques in Agriculture and Forestry")
The Application of Spectral Techniques in Agriculture and Forestry68,99 €![Plant-Based Bioactive Substances Identification, Extraction, and Application]( "Plant-Based Bioactive Substances Identification, Extraction, and Application")
Plant-Based Bioactive Substances Identification, Extraction, and Application73,99 €
The optically pumped magnetometer (OPM) is a class of atomic devices that rely on the measurement of Larmor precession of an atomic spin ensemble in a magnetic field. They need the specific frequency light to complete the pumping and detection process. OPMs typically work under the Earth's magnetic field or a limited field. When operating in near-zero field, they can realize the spin-exchange relaxation-free (SERF) regime, thereby promoting a substantial increase in sensitivity. At present, OPMs have been widely used in magnetoencephalography, magnetocardiography, geomagnetic detection, and inertia measurement (comagnetometer). There are a large number of researchers engaged in the study of relevant mechanisms, devices, technologies, and applications. More importantly, supported by MEMS technology and micro/nano optics, OPMs have the potential to move toward chip-scale sensors. This special issue contains some latest developments in OPMs and related areas. We hope the reprint can provide valuable references for researchers in the related field.