Add to ORKGLandau damping is an essential mechanism for ensuring the transverse beam stability in LHC and its upgrades. It suppresses transverse head-tail modes within the bunch that cannot be otherwise damped by a narrow-band feedback or chromaticity. The goal of this study was to test an experimental procedure that would allow quantifying the strength of Landau damping using the ADT feedback as a controllable source of beam impedance. The procedure can potentially provide an accurate way of measuring the stability diagram for LHC and HL-LHC
Loss of Landau damping leading to a single bunch longitudinal instability has been observed in the L...
Abstract Landau damping is the suppression of an instability by a spread of frequencies in the beam....
The Landau damping mechanism plays a crucial role in providing single-bunch stability in the LHC, hi...
Landau damping is an essential mechanism for ensuring collective beam stability in particle accelera...
Beam Transfer Function (BTF) measurements are direct measurement of the stability diagrams that defin...
Stability diagrams quantify the LHC stability thresholds due to the beam coupling impedance. Beam Tr...
This paper discusses measurements on the stabilization of single bunches with second order chromatic...
Transverse collective instabilities induced by the beam-coupling impedance of the accelerator struct...
Loss of Landau damping leading to a single bunch longitudinal instability has been observed in the L...
Loss of Landau damping leading to a single bunch longitudinal instability has been observed in the L...
The Landau damping mechanism stabilizes the impedance driven head-tail modes in hadron synchrotrons....
Instability thresholds are explored at the Large Hadron Collider (LHC) by means of the computation o...
This paper discusses measurements on the stabilization of single bunches with second order chromatic...
A large number of collective instability mechanisms act on high-intensity beams. It is necessary ...
The main purpose of this MD was to study longitudinal and transverse beam dynamics in the LHC. Eight...
Loss of Landau damping leading to a single bunch longitudinal instability has been observed in the L...
Abstract Landau damping is the suppression of an instability by a spread of frequencies in the beam....
The Landau damping mechanism plays a crucial role in providing single-bunch stability in the LHC, hi...
Landau damping is an essential mechanism for ensuring collective beam stability in particle accelera...
Beam Transfer Function (BTF) measurements are direct measurement of the stability diagrams that defin...
Stability diagrams quantify the LHC stability thresholds due to the beam coupling impedance. Beam Tr...
This paper discusses measurements on the stabilization of single bunches with second order chromatic...
Transverse collective instabilities induced by the beam-coupling impedance of the accelerator struct...
Loss of Landau damping leading to a single bunch longitudinal instability has been observed in the L...
Loss of Landau damping leading to a single bunch longitudinal instability has been observed in the L...
The Landau damping mechanism stabilizes the impedance driven head-tail modes in hadron synchrotrons....
Instability thresholds are explored at the Large Hadron Collider (LHC) by means of the computation o...
This paper discusses measurements on the stabilization of single bunches with second order chromatic...
A large number of collective instability mechanisms act on high-intensity beams. It is necessary ...
The main purpose of this MD was to study longitudinal and transverse beam dynamics in the LHC. Eight...
Loss of Landau damping leading to a single bunch longitudinal instability has been observed in the L...
Abstract Landau damping is the suppression of an instability by a spread of frequencies in the beam....
The Landau damping mechanism plays a crucial role in providing single-bunch stability in the LHC, hi...