We present a dynamical model for the double torsion pendulum nicknamed ‘‘PETER,’’ where one torsion pendulum hangs in cascade, but off axis, from the other. The dynamics of interest in these devices lies around the torsional resonance, that is at very low frequencies (mHz). However, we find that, in order to properly describe the forced motion of the pendulums, also other modes must be considered, namely swinging and bouncing oscillations of the two suspended masses, that resonate at higher frequencies (Hz). Although the system has obviously 6+6 degrees of freedom, we find that 8 are sufficient for an accurate description of the observed motion. This model produces reliable estimates of the response to generic external disturbances and actuating forces or torques. In particular, we compute the effect of seismic floor motion (‘‘tilt’’ noise) on the low frequency part of the signal spectra and show that it properly accounts for most of the measured low frequency noise.
"Quasi-complete" mechanical model for a double torsion pendulum / Fabrizio De, Marchi; Giuseppe, Pucacco; Massimo, Bassan; DE ROSA, Rosario; Luciano Di, Fiore; Garufi, Fabio; Aniello, Grado; Lorenzo, Marconi; Ruggero, Stanga; Francesco, Stolzi; Massimo, Visco. - In: PHYSICAL REVIEW D, PARTICLES, FIELDS, GRAVITATION, AND COSMOLOGY. - ISSN 1550-7998. - 87:(2013), pp. 122006-1-122006-11. [10.1103/PhysRevD.87.122006]
"Quasi-complete" mechanical model for a double torsion pendulum
DE ROSA, ROSARIO;GARUFI, FABIO;
2013
Abstract
We present a dynamical model for the double torsion pendulum nicknamed ‘‘PETER,’’ where one torsion pendulum hangs in cascade, but off axis, from the other. The dynamics of interest in these devices lies around the torsional resonance, that is at very low frequencies (mHz). However, we find that, in order to properly describe the forced motion of the pendulums, also other modes must be considered, namely swinging and bouncing oscillations of the two suspended masses, that resonate at higher frequencies (Hz). Although the system has obviously 6+6 degrees of freedom, we find that 8 are sufficient for an accurate description of the observed motion. This model produces reliable estimates of the response to generic external disturbances and actuating forces or torques. In particular, we compute the effect of seismic floor motion (‘‘tilt’’ noise) on the low frequency part of the signal spectra and show that it properly accounts for most of the measured low frequency noise.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
