Add to ORKGWe demonstrate an ultra-high sensitivity rf optical magnetometer based on a compact 5×5×8 mm3 Rubidium-87 vapor cell in a mu-metal shielded environment. The rf field is detected via a Faraday rotation effect on the linear polarization of a probe beam, and the resonance frequency is tuned via Zeeman effect by applying a static bias magnetic field to the cell. Sensitivities down to 3 fT/√Hz are achieved between 10 kHz and 100 kHz, which is a performance comparable to that of prior larger cells. An increase in the sensitivity with frequency and temperature has been observed
International audienceWe present a new technique to measure pulsed magnetic fields based on the use ...
The field of magnetometry has played a pivotal role in developing our understanding of the world aro...
Abstract—We summarize recent results at NIST to develop high-performance yet highly miniaturized mag...
Optical spectroscopy of simple atoms allows a very precise measurement of the atomic properties and ...
We propose and demonstrate a radio-frequency atomic magnetometer with sub-Doppler laser cooled rubi...
Magnetic field detection based on optically pumped alkali-atom vapors is an attractive and potential...
We demonstrated a scalar atomic magnetometer using a microfabricated Cs vapor cell. The atomic spin ...
Highly sensitive magnetometers capable of measuring magnetic fields below 1 pT have an impact on are...
This project demonstrates an optical method for measuring the strength and direction of a magnetic f...
Atomic magnetometry was performed at Earth's magnetic field over a free-space distance of ten meters...
We present a new technique to measure pulsed magnetic fields based on the use of Rubidium in gas pha...
Hakhumyan, G. T.International audienceIt is shown experimentally that use of fluorescence and transm...
Improvements were made to the existing rubidium atomic magnetometer which uses nonlinear magneto-opt...
International audienceWe have implemented the so-called λ-Zeeman technique (LZT) to investigate indi...
We describe a room-temperature alkali-metal atomic magnetometer for detection of small, high frequen...
International audienceWe present a new technique to measure pulsed magnetic fields based on the use ...
The field of magnetometry has played a pivotal role in developing our understanding of the world aro...
Abstract—We summarize recent results at NIST to develop high-performance yet highly miniaturized mag...
Optical spectroscopy of simple atoms allows a very precise measurement of the atomic properties and ...
We propose and demonstrate a radio-frequency atomic magnetometer with sub-Doppler laser cooled rubi...
Magnetic field detection based on optically pumped alkali-atom vapors is an attractive and potential...
We demonstrated a scalar atomic magnetometer using a microfabricated Cs vapor cell. The atomic spin ...
Highly sensitive magnetometers capable of measuring magnetic fields below 1 pT have an impact on are...
This project demonstrates an optical method for measuring the strength and direction of a magnetic f...
Atomic magnetometry was performed at Earth's magnetic field over a free-space distance of ten meters...
We present a new technique to measure pulsed magnetic fields based on the use of Rubidium in gas pha...
Hakhumyan, G. T.International audienceIt is shown experimentally that use of fluorescence and transm...
Improvements were made to the existing rubidium atomic magnetometer which uses nonlinear magneto-opt...
International audienceWe have implemented the so-called λ-Zeeman technique (LZT) to investigate indi...
We describe a room-temperature alkali-metal atomic magnetometer for detection of small, high frequen...
International audienceWe present a new technique to measure pulsed magnetic fields based on the use ...
The field of magnetometry has played a pivotal role in developing our understanding of the world aro...
Abstract—We summarize recent results at NIST to develop high-performance yet highly miniaturized mag...