306 research outputs found
The least informative distribution and correlation coefficient of measurement results
Correlations play a significant role in data analysis and the evaluation and expression of the
uncertainty, yet estimating them is often difficult. This paper provides examples of how to
infer the measurand value, given only the uncertainties and correlation ranges of the
measurement results. The least informative data-distribution is not Gaussian, but the marginal
distributions are. Explicit results are given in the case of a data pair, where the inferred
correlation coefficient is the midpoint of the given range
High accuracy measure of atomic polarizability in an optical lattice clock
Despite being a canonical example of quantum mechanical perturbation theory,
as well as one of the earliest observed spectroscopic shifts, the Stark effect
contributes the largest source of uncertainty in a modern optical atomic clock
through blackbody radiation. By employing an ultracold, trapped atomic ensemble
and high stability optical clock, we characterize the quadratic Stark effect
with unprecedented precision. We report the ytterbium optical clock's
sensitivity to electric fields (such as blackbody radiation) as the
differential static polarizability of the ground and excited clock levels:
36.2612(7) kHz (kV/cm)^{-2}. The clock's fractional uncertainty due to room
temperature blackbody radiation is reduced an order of magnitude to 3 \times
10^{-17}.Comment: 5 pages, 3 figures, 2 table
Effect of Water Content on the Thermal Inactivation Kinetics of Horseradish Peroxidase Freeze-Dried from Alkaline pH
The thermal inactivation of horseradish peroxidase freeze-dried from solutions of different pH (8, 10 and 11.5, measured at 25 C) and equilibrated to different water contents was studied in the temperature range from 110 to 150 C. The water contents studied (0.0, 1.4, 16.2 and 25.6 g water per 100 g of dry enzyme) corresponded to water activities of 0.0, 0.11, 0.76 and 0.88 at 4 C. The kinetics were well described by a double exponential model. The enzyme was generally more stable the lower the pH of the original solution, and for all pH values, the maximum stability was obtained at 1.4 g water/100 g dry enzyme. Values of z were generally independent of water content and of the pH of the original solution, and in the range of 15â25 °C, usually found in neutral conditions, with the exception of the enzyme freeze dried from pH 11.5 and equilibrated with phosphorus pentoxide, where a z-value of the stable fraction close to 10 C was found
An atomic clock with instability
Atomic clocks have been transformational in science and technology, leading
to innovations such as global positioning, advanced communications, and tests
of fundamental constant variation. Next-generation optical atomic clocks can
extend the capability of these timekeepers, where researchers have long aspired
toward measurement precision at 1 part in . This milestone will
enable a second revolution of new timing applications such as relativistic
geodesy, enhanced Earth- and space-based navigation and telescopy, and new
tests on physics beyond the Standard Model. Here, we describe the development
and operation of two optical lattice clocks, both utilizing spin-polarized,
ultracold atomic ytterbium. A measurement comparing these systems demonstrates
an unprecedented atomic clock instability of after
only hours of averaging
Co-design, co-learning, and co-production of an app for pancreatic cancer patientsâthe âPancreas Plusâ study protocol
Background: Pancreatic cancer is a malignant and complex tumor that often leads to an adverse prognosis.
Patients need to face a challenging treatment path, which involves highly-specialized multidisciplinary
professionals. The complexity of the disease requires the development of dedicated tools to support patients
in their care journey. Co-production stands as a valuable strategy in oncological care to engage patients in
understanding their care journey and behaving accordingly to get the best possible clinical outcome.
Methods: The non-profit association Unipancreas, active in promoting the latest advances in pancreatic
cancer care and in supporting pancreatic cancer patients, has partnered with a multidisciplinary group
of professionals to conceive the brand new program âPancreas Plusâ to employ a co-design, co-learning,
and co-production path to design an app devoted to pancreatic cancer patients to assist them during their
treatment and follow-up journey. The app, which is the outcome of a multi-stakeholder engagement project,
offers health information and medical advice specifically tailored on the pancreatic cancer disease. The
article reports the research protocol, which may be replicated for the design of other e-health tools focusing
on different conditions.
Discussion: The studyâs output will be an app that sees the pancreatic cancer patient as the main
beneficiary but which can gather and address the interests and needs of all meaningful stakeholders, including
clinicians, researchers, healthcare and educational institutions, and
An Add-on Model Predictive Control Strategy for the Energy Management of Hybrid Electric Tractors
The hybridization process has recently touched also the world of agricultural
vehicles. Within this context, we develop an Energy Management Strategy (EMS)
aiming at optimizing fuel consumption, while maintaining the battery state of
charge. A typical feature of agricultural machines is that their internal
combustion engine is speed controlled, tracking the reference requested by the
driver. In view of avoiding any modification on this original control loop, an
add-on EMS strategy is proposed. In particular, we employ a multi-objective
Model Predictive Control (MPC), taking into account the fuel consumption
minimization and the speed tracking requirement, including the engine speed
controller in the predictive model. The proposed MPC is tested in an
experimentally-validated simulation environment, representative of an orchard
vineyard tractor.Comment: Submitted to IEEE Transactions on Vehicular Technolog
A Large Area Fiber Optic Gyroscope on multiplexed fiber network
We describe a fiber optical gyroscope based on the Sagnac effect realized on a multiplexed telecom fiber network. Our loop encloses an area of 20 km2 and coexists with Internet data traffic. This Sagnac interferometer achieves a sensitivity of about (10-8 rad/s)/sqrt(Hz), thus approaching ring laser gyroscopes without using narrow linewidth laser nor sophisticated optics. The proposed gyroscope is sensitive enough for seismic applications, opening new possibilities for this kind of optical fiber sensors
Robust optical frequency dissemination with a dual-polarization coherent receiver
Frequency dissemination over optical fiber links relies on measuring the phase of fiber-delivered lasers. Phase is extracted from optical beatnotes and the detection fails in case of beatnotes fading due to polarization changes, which strongly limit the reliability and robustness of the dissemination chain. We propose a new method that overcomes this issue, based on a dual-polarization coherent receiver and a dedicated signal processing that we developed on a field programmable gated array. Our method allowed analysis of polarization-induced phase noise from a theoretical and experimental point of view and endless tracking of the optical phase. This removes a major obstacle in the use of optical links for those physics experiments where long measurement times and high reliability are required
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