Taiwo Olatunde scite author profile

Taiwo Olatunde

5Publications

53Citation Statements Received

30Citation Statements Given

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106

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University of Florida, Ames Research Center

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A new torsion pendulum for gravitational reference sensor technology development

Ciani

Chilton

Apple

et al. 2017

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We report on the design and sensitivity of a new torsion pendulum for measuring the performance of ultra-precise inertial sensors and for the development of associated technologies for space-based gravitational wave observatories and geodesy missions. The apparatus comprises a 1 m-long, 50 μm-diameter tungsten fiber that supports an inertial member inside a vacuum system. The inertial member is an aluminum crossbar with four hollow cubic test masses at each end. This structure converts the rotation of the torsion pendulum into translation of the test masses. Two test masses are enclosed in capacitive sensors which provide readout and actuation. These test masses are electrically insulated from the rest of the crossbar and their electrical charge is controlled by photoemission using fiber-coupled ultraviolet light emitting diodes. The capacitive readout measures the test mass displacement with a broadband sensitivity of 30 nm∕Hz and is complemented by a laser interferometer with a sensitivity of about 0.5 nm∕Hz. The performance of the pendulum, as determined by the measured residual torque noise and expressed in terms of equivalent force acting on a single test mass, is roughly 200 fN∕Hz around 2 mHz, which is about a factor of 20 above the thermal noise limit of the fiber.

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240 nm UV LEDs for LISA test mass charge control

Olatunde

Shelley

Chilton

et al. 2015

J. Phys.: Conf. Ser.

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A Charge Management System for Gravitational Reference Sensors – Design and Instrument Testing

Kenyon

Letson

Clark

et al. 2021

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Numerical modeling and experimental demonstration of pulsed charge control for the space inertial sensor used in LISA

et al. 2020

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Design and performance characterization of a new LISA-like (laser interferometer space antenna-like) gravitational reference sensor and torsion pendulum testbed

Apple

Alvarez

Kenyon

et al. 2023

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In this paper, we present the design and performance of the upgraded University of Florida torsion pendulum facility for testing inertial sensor technology related to space-based gravitational wave observatories and geodesy missions. In particular, much work has been conducted on inertial sensor technology related to the Laser Interferometer Space Antenna (LISA) space gravitational wave observatory mission. A significant upgrade to the facility was the incorporation of a newly designed and fabricated LISA-like gravitational reference sensor (GRS) based on the LISA Pathfinder GRS. Its LISA-like geometry has allowed us to make noise measurements that are more representative of those in LISA and has allowed for the characterization of the mechanisms of noise induced on a LISA GRS and their underlying physics. Noise performance results and experiments exploring the effect of temperature gradients across the sensor will also be discussed. The LISA-like sensor also includes unique UV light injection geometries for UV LED based charge management. Pulsed and DC charge management experiments have been conducted using the University of Florida charge management group’s technology readiness level 4 charge management device. These experiments have allowed for the testing of charge management system hardware and techniques as well as characterizations of the dynamics of GRS test mass charging. The work presented here demonstrates the upgraded torsion pendulum’s ability to act as an effective testbed for GRS technology.

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Taiwo Olatunde

A new torsion pendulum for gravitational reference sensor technology development

240 nm UV LEDs for LISA test mass charge control

A Charge Management System for Gravitational Reference Sensors – Design and Instrument Testing

Numerical modeling and experimental demonstration of pulsed charge control for the space inertial sensor used in LISA

Design and performance characterization of a new LISA-like (laser interferometer space antenna-like) gravitational reference sensor and torsion pendulum testbed

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