Efficient approach for quantum sensing field gradients with trapped ions

Abstract: We introduce quantum sensing protocol for detection spatially varying fields by using two coupled harmonic oscillators as a quantum probe. We discuss a physical implementation of the sensing technique with two trapped ions coupled via Coulomb mediated phonon hopping. Our method relies on using the coupling between the localized ion oscillations and the internal states of the trapped ions which allows to measure spatially varying electric and magnetic fields. First we discuss an adiabatic sensing technique whic… Show more

“…A different class of phase transitions was introduced in an interacting system of single-mode cavity field and two-level atom, where the thermodynamic limit requires the cavity frequency in units of atomic transition frequency to tend to zero [11,12]. An enhanced parameter estimation was proposed with such finite size critical quantum optical system for high-precision force measurements [13][14][15] or frequency measurements [8,9]. The corresponding quantum Fisher information diverges by approaching the critical coupling, indicating that the finite size quantum optical system becomes sensitive to infinitely small variation of the parameter of interest.…”

Enhanced Parameter Estimation with Periodically Driven Quantum Probe

“…A different class of phase transitions was introduced in an interacting system of single-mode cavity field and two-level atom, where the thermodynamic limit requires the cavity frequency in units of atomic transition frequency to tend to zero [11,12]. An enhanced parameter estimation was proposed with such finite size critical quantum optical system for high-precision force measurements [13][14][15] or frequency measurements [8,9]. The corresponding quantum Fisher information diverges by approaching the critical coupling, indicating that the finite size quantum optical system becomes sensitive to infinitely small variation of the parameter of interest.…”

Enhanced Parameter Estimation with Periodically Driven Quantum Probe

“…A different class of phase transitions was introduced in an interacting system of single-mode cavity field and two-level atom, where the thermodynamic limit requires the cavity frequency in units of atomic transition frequency to tend to zero [9,10]. An enhanced parameter estimation was proposed with such finite size critical quantum optical system for high-precision force measurements [11][12][13] or frequency measurements [6,7]. The corresponding quantum Fisher information diverges by approaching the critical coupling indicating that the finite size quantum optical system becomes sensitive to infinitely small variation of the parameter of interest.…”

Enhanced Parameter Estimation with Periodically Driven Quantum Probe