Add to ORKGAbstract—We summarize recent results at NIST to develop high-performance yet highly miniaturized magnetic sensors based on atomic vapors confined in microfabricated alkali vapor cells. These sensors currently achieve sensitivities in the range of a few tens of femtotesla in a 1 Hz bandwidth in detection volumes of about 1 mm3. They require no cooling and only a small amount of heating, making them ideal for deployment in remote, power starved locations. I
We have developed a novel, small-volume portable single-channel atomic biomagnetometer and have use...
Abstract—We compare the sensitivity performance of two optically pumped atomic magnetometers based o...
Recent innovations may lead to magnetic sensors that are smaller, more sensitive, and/or cost less t...
Highly sensitive magnetometers capable of measuring magnetic fields below 1 pT have an impact on are...
Abstract. We review recent work at NIST to develop highly miniaturized instruments based on spectros...
We describe recent work at NIST to develop compact, sensitive atomic magnetometers using a combinati...
We demonstrated a scalar atomic magnetometer using a microfabricated Cs vapor cell. The atomic spin ...
Abstract — Atomic magnetometers based on absorption or polarization rotation of light in an alkali v...
Magnetic field detection based on optically pumped alkali-atom vapors is an attractive and potential...
We demonstrate an ultra-high sensitivity rf optical magnetometer based on a compact 5×5×8 mm3 Rubid...
High permeability magnetic flux concentrators are used to enhance the sensitivity of an atomic magne...
We describe recent work at NIST to develop compact, low-power instruments based on a combination of ...
We propose and demonstrate a radio-frequency atomic magnetometer with sub-Doppler laser cooled rubi...
Spin polarized atomic magnetometers involve the preparation of atomic spins and their detection for ...
A multichannel atomic magnetometer operating in an unshielded environment is described and character...
We have developed a novel, small-volume portable single-channel atomic biomagnetometer and have use...
Abstract—We compare the sensitivity performance of two optically pumped atomic magnetometers based o...
Recent innovations may lead to magnetic sensors that are smaller, more sensitive, and/or cost less t...
Highly sensitive magnetometers capable of measuring magnetic fields below 1 pT have an impact on are...
Abstract. We review recent work at NIST to develop highly miniaturized instruments based on spectros...
We describe recent work at NIST to develop compact, sensitive atomic magnetometers using a combinati...
We demonstrated a scalar atomic magnetometer using a microfabricated Cs vapor cell. The atomic spin ...
Abstract — Atomic magnetometers based on absorption or polarization rotation of light in an alkali v...
Magnetic field detection based on optically pumped alkali-atom vapors is an attractive and potential...
We demonstrate an ultra-high sensitivity rf optical magnetometer based on a compact 5×5×8 mm3 Rubid...
High permeability magnetic flux concentrators are used to enhance the sensitivity of an atomic magne...
We describe recent work at NIST to develop compact, low-power instruments based on a combination of ...
We propose and demonstrate a radio-frequency atomic magnetometer with sub-Doppler laser cooled rubi...
Spin polarized atomic magnetometers involve the preparation of atomic spins and their detection for ...
A multichannel atomic magnetometer operating in an unshielded environment is described and character...
We have developed a novel, small-volume portable single-channel atomic biomagnetometer and have use...
Abstract—We compare the sensitivity performance of two optically pumped atomic magnetometers based o...
Recent innovations may lead to magnetic sensors that are smaller, more sensitive, and/or cost less t...