Your search keyword '"Cip, Ondrej"' showing total 3 results

1. Phase-Noise Characterization in Stable Optical Frequency Transfer over Free Space and Fiber Link Testbeds †.

Author

Barcik, Peter, Hrabina, Jan, Cizek, Martin, Kolka, Zdenek, Skryja, Petr, Pravdova, Lenka, Cip, Ondrej, Hudcova, Lucie, Havlis, Ondrej, and Vojtech, Josef

Subjects

ATMOSPHERIC turbulence, OPTICAL fiber networks, HARMONIC oscillators, WEATHER, FREQUENCY stability, FREE-space optical technology, DELOCALIZATION energy, RADIO frequency

Abstract

Time and frequency metrology depends on stable oscillators in both radio-frequency and optical domains. With the increased complexity of the highly precise oscillators also came the demand for delivering the oscillators' harmonic signals between delocalized sites for comparison, aggregation, or other purposes. Besides the traditional optical fiber networks, free-space optical links present an alternative tool for disseminating stable sources' output. We present a pilot experiment of phase-coherent optical frequency transfer using a free-space optical link testbed. The experiment performed on a 30 m long link demonstrates the phase-noise parameters in a free-space optical channel under atmospheric turbulence conditions, and it studies the impact of active MEMS mirror stabilization of the received optical wave positioning on the resulting transfer's performance. Our results indicate that a well-configured MEMS mirror beam stabilization significantly enhances fractional frequency stability, achieving the−14th-order level for integration times over 30 s. [ABSTRACT FROM AUTHOR]

Published

2023

2. Design and Characterisation of an Optical Fibre Dosimeter Based on Silica Optical Fibre and Scintillation Crystal.

Author

Jelinek, Michal, Cip, Ondrej, Lazar, Josef, and Mikel, Bretislav

Subjects

*DOSIMETERS, *NUCLEAR counters, *PHOTON detectors, *OPTICAL fibers, *GAMMA rays, *ELECTROMAGNETIC radiation, *SCINTILLATORS

Abstract

In nuclear power plants, particle accelerators, and other nuclear facilities, measuring the level of ionising gamma radiation is critical for the safety and management of the operation and the environment's protection. However, in many cases, it is impossible to monitor ionising radiation directly at the required location continuously. This is typically either due to the lack of space to accommodate the entire dosimeter or in environments with high ionising radiation activity, electromagnetic radiation, and temperature, which significantly shorten electronics' lifetime. To allow for radiation measurement in such scenarios, we designed a fibre optic dosimeter that introduces an optical fibre link to deliver the scintillation radiation between the ionising radiation sensor and the detectors. The sensors can thus be placed in space-constrained and electronically hostile locations. We used silica optical fibres that withstand high radiation doses, high temperatures, and electromagnetic interference. We use a single photon counter and a photomultiplier to detect the transmitted scintillation radiation. We have shown that selected optical fibres, combined with different scintillation materials, are suitable for measuring gamma radiation levels in hundreds of kBq. We present the architecture of the dosimeter and its experimental characterisation with several combinations of optical fibres, detectors, and scintillation crystals. [ABSTRACT FROM AUTHOR]

Published

2022

3. Detection of Interference Phase by Digital Computation of Quadrature Signals in Homodyne Laser Interferometry.

Author

Rerucha, Simon, Buchta, Zdenek, Sarbort, Martin, Lazar, Josef, and Cip, Ondrej

Subjects

LASER interferometry, OPTOELECTRONIC devices, OPTICAL interference, HOMODYNE detection, COMPUTATIONAL complexity, LASER beams

Abstract

We have proposed an approach to the interference phase extraction in the homodyne laser interferometry. The method employs a series of computational steps to reconstruct the signals for quadrature detection from an interference signal from a non-polarising interferometer sampled by a simple photodetector. The complexity trade-off is the use of laser beam with frequency modulation capability. It is analytically derived and its validity and performance is experimentally verified. The method has proven to be a feasible alternative for the traditional homodyne detection since it performs with comparable accuracy, especially where the optical setup complexity is principal issue and the modulation of laser beam is not a heavy burden (e.g., in multi-axis sensor or laser diode based systems). [ABSTRACT FROM AUTHOR]

Published

2012