Add to ORKGSelf-oscillating atomic magnetometers, in which the precession of atomic spins in a magnetic field is driven by resonant modulation, offer high sensitivity and dynamic range. Phase-coherent feedback from the detected signal to the applied modulation creates a resonant spin maser system, highly responsive to changes in the background magnetic field. Here we show a system in which the phase condition for resonant precession is met by digital signal processing integrated into the maser feedback loop. This system uses a modest chip-scale laser and mass-produced dual-pass caesium vapour cell and operates in a 50 microtesla field, making it a suitable technology for portable measurements of the geophysical magnetic field. We demonstrate a Cramer-...
Quantum sensing is a fundamental building block of modern technology that employs quantum resources ...
We present an optically pumped magnetometer working in a new operational mode—the light-shift disper...
The field of magnetometry has played a pivotal role in developing our understanding of the world aro...
Self-oscillating atomic magnetometers, in which the precession of atomic spins in a magnetic field i...
Atomic magnetometry was performed at Earth's magnetic field over a free-space distance of ten meters...
This thesis describes the implementation of an optically pumped caesium magnetometer containing a 1:...
We present a theoretical and experimental study of an atomic magnetometer operating in geomagnetic f...
$^{39}$K atoms have the smallest ground state ($^2S_{1/2}$) hyperfine splitting of all the most natu...
We present a detailed experimental and theoretical study on the relaxation of spin coherence due to...
We present a laser-based atomic magnetometer that allows inferring the modulus of a magnetic field f...
Light-atom interactions during spin preparation and readout in optically pumped magnetometers can le...
We present a magnetic sensor with energy resolution per bandwidth ER < h. We show how a 87Rb single-...
We show that a single electron spin can serve as a sensor for radio-frequency (RF) magnetic fields. ...
We demonstrated a scalar atomic magnetometer using a microfabricated Cs vapor cell. The atomic spin ...
This thesis was previously held under moratorium from 1st December 2016 until 1st June 2020This thes...
Quantum sensing is a fundamental building block of modern technology that employs quantum resources ...
We present an optically pumped magnetometer working in a new operational mode—the light-shift disper...
The field of magnetometry has played a pivotal role in developing our understanding of the world aro...
Self-oscillating atomic magnetometers, in which the precession of atomic spins in a magnetic field i...
Atomic magnetometry was performed at Earth's magnetic field over a free-space distance of ten meters...
This thesis describes the implementation of an optically pumped caesium magnetometer containing a 1:...
We present a theoretical and experimental study of an atomic magnetometer operating in geomagnetic f...
$^{39}$K atoms have the smallest ground state ($^2S_{1/2}$) hyperfine splitting of all the most natu...
We present a detailed experimental and theoretical study on the relaxation of spin coherence due to...
We present a laser-based atomic magnetometer that allows inferring the modulus of a magnetic field f...
Light-atom interactions during spin preparation and readout in optically pumped magnetometers can le...
We present a magnetic sensor with energy resolution per bandwidth ER < h. We show how a 87Rb single-...
We show that a single electron spin can serve as a sensor for radio-frequency (RF) magnetic fields. ...
We demonstrated a scalar atomic magnetometer using a microfabricated Cs vapor cell. The atomic spin ...
This thesis was previously held under moratorium from 1st December 2016 until 1st June 2020This thes...
Quantum sensing is a fundamental building block of modern technology that employs quantum resources ...
We present an optically pumped magnetometer working in a new operational mode—the light-shift disper...
The field of magnetometry has played a pivotal role in developing our understanding of the world aro...