Your search keyword '"Busegnies Y"' showing total 12 results

1. A new reduced network to simulate detonations in superbursts from mixed H/He accretors

Author

Noel, C., Goriely, S., Busegnies, Y., and Papalexandris, M. V.

Subjects

Astrophysics

Abstract

We construct a new reduced nuclear reaction network able to reproduce the energy production due to the photo-disintegration of heavy elements such as Ru, which are believed to occur during superbursts in mixed H/He accreting systems. We use this network to simulate a detonation propagation, inside a mixture of C/Ru. As our reference, we use a full nuclear reaction network, including 14758 reactions on 1381 nuclides. Until the reduced and full networks converge to a good level of accuracy in the energy production rate, we iterate between the hydrodynamical simulation, with a given reduced network, and the readjustment of a new reduced network, on the basis of previously derived hydrodynamical profiles. We obtain the thermodynamic state of the material after the passage of the detonation, and the final products of the combustion. Interestingly, we find that all reaction lengths can be resolved in the same simulation. This will enable C/Ru detonations to be more easily studied in future multi-dimensional simulations, than pure carbon ones. We underline the dependence of the combustion products on the initial mass fraction of Ru. In some cases, a large fraction of heavy nuclei, such as Mo, remains after the passage of the detonation front. In other cases, the ashes are principally composed of iron group elements., Comment: 6 pages, 12 figures

Published

2008

2. Hydrodynamical simulation of detonations in superbursts. I. The hydrodynamical algorithm and some preliminary one-dimensional results

Author

Noel, C., Busegnies, Y., Papalexandris, M. V., Deledicque, V., and Messoudi, A. El

Subjects

Astrophysics

Abstract

Aims. This work presents a new hydrodynamical algorithm to study astrophysical detonations. A prime motivation of this development is the description of a carbon detonation in conditions relevant to superbursts, which are thought to result from the propagation of a detonation front around the surface of a neutron star in the carbon layer underlying the atmosphere. Methods. The algorithm we have developed is a finite-volume method inspired by the original MUSCL scheme of van Leer (1979). The algorithm is of second-order in the smooth part of the flow and avoids dimensional splitting. It is applied to some test cases, and the time-dependent results are compared to the corresponding steady state solution. Results. Our algorithm proves to be robust to test cases, and is considered to be reliably applicable to astrophysical detonations. The preliminary one-dimensional calculations we have performed demonstrate that the carbon detonation at the surface of a neutron star is a multiscale phenomenon. The length scale of liberation of energy is $10^6$ times smaller than the total reaction length. We show that a multi-resolution approach can be used to solve all the reaction lengths. This result will be very useful in future multi-dimensional simulations. We present also thermodynamical and composition profiles after the passage of a detonation in a pure carbon or mixed carbon-iron layer, in thermodynamical conditions relevant to superbursts in pure helium accretor systems., Comment: 7 pages, 7 figures, Astronomy and Astrophysics in press, a version of the paper with higher figures resolution can be found on http://www.astro.ulb.ac.be/Html/ps.html#Hydro

Published

2007

3. Unidimensional SPH simulations of reactive shock tubes in an astrophysical perspective

Author

Busegnies, Y., François, J., and Paulus, G.

Published

2007

4. A new reduced network to simulate detonations in superbursts from mixed H/He accretors

Author

UCL - FSA/MECA - Département de mécanique, Noel, C., Goriely, Stéphane, Busegnies, Y., Papalexandris, Miltiadis, UCL - FSA/MECA - Département de mécanique, Noel, C., Goriely, Stéphane, Busegnies, Y., and Papalexandris, Miltiadis

Abstract

Aims. We construct a new reduced nuclear reaction network able to reproduce the energy production due to the photo-disintegration of heavy elements such as Ru, which are believed to occur during superbursts in mixed H/He accreting systems. We use this network to simulate a detonation propagation, inside a mixture of C/Ru. Methods. As our reference, we use a full nuclear reaction network, including 14 758 reactions on 1381 nuclides. Until the reduced and full networks converge to a good level of accuracy in the energy production rate, we iterate between the hydrodynamical simulation, with a given reduced network, and the readjustment of a new reduced network, on the basis of previously derived hydrodynamical profiles. Results. We obtain the thermodynamic state of the material after the passage of the detonation, and the final products of the combustion. Interestingly, we find that all reaction lengths can be resolved in the same simulation. This will enable C/Ru detonations to be more easily studied in future multi-dimensional simulations, than pure carbon ones. We underline the dependence of the combustion products on the initial mass fraction of Ru. In some cases, a large fraction of heavy nuclei, such as Mo, remains after the passage of the detonation front. In other cases, the ashes are principally composed of iron group elements.

Published

2008

5. Hydrodynamical simulation of detonations in superbursts - I. The hydrodynamical algorithm and some preliminary one-dimensional results

Author

UCL - FSA/MECA - Département de mécanique, Noel, C., Busegnies, Y., Papalexandris, Miltiadis, Deledicque, Vincent, El Messoudi, A., UCL - FSA/MECA - Département de mécanique, Noel, C., Busegnies, Y., Papalexandris, Miltiadis, Deledicque, Vincent, and El Messoudi, A.

Abstract

Aims. This work presents a new hydrodynamical algorithm to study astrophysical detonations. A prime motivation of this development is the description of a carbon detonation in conditions relevant to superbursts, which are thought to result from the propagation of a detonation front around the surface of a neutron star in the carbon layer underlying the atmosphere. Methods. The algorithm we have developed is a finite-volume method inspired by the original MUSCL scheme of van Leer (1979). The algorithm is of second-order in the smooth part of the flow and avoids dimensional splitting. It is applied to some test cases, and the time-dependent results are compared to the corresponding steady state solution. Results. Our algorithm proves to be robust to test cases, and is considered to be reliably applicable to astrophysical detonations. The preliminary one-dimensional calculations we have performed demonstrate that the carbon detonation at the surface of a neutron star is a multiscale phenomenon. The length scale of liberation of energy is 106 times smaller than the total reaction length. We show that a multi-resolution approach can be used to solve all the reaction lengths. This result will be very useful in future multi-dimensional simulations. We present also thermodynamical and composition profiles after the passage of a detonation in a pure carbon or mixed carbon-iron layer, in thermodynamical conditions relevant to superbursts in pure helium accretor systems.

Published

2007

6. Hydrodynamical simulations of detonations in superbursts

Author

UCL - FSA/MECA - Département de mécanique, Noel, C., Busegnies, Y., Papalexandris, Miltiadis, Goriely, S., 10th International Symposium on Origin of Matter and Evolution of Galaxies, UCL - FSA/MECA - Département de mécanique, Noel, C., Busegnies, Y., Papalexandris, Miltiadis, Goriely, S., and 10th International Symposium on Origin of Matter and Evolution of Galaxies

Abstract

A new hydrodynamical algorithm to study astrophysical detonations is presented. A prime motivation of this development is the description of a carbon detonation in conditions relevant to superbursts, which are thought to result from the propagation of a detonation front around the surface of a neutron star in the carbon layer underlying the atmosphere. The one-dimensional calculations we have performed demonstrate that the carbon detonation at the surface of a neutron star is a multiscale phenomenon. We show that a multi-resolution approach can be used to solve all the reaction lengths. For mixed H/He accreting systems, we have introduced a new reduced network to study the impact of the photodesintegration of the heavy elements on the detonation.

Published

2007

7. A new reduced network to simulate detonations in superbursts from mixed H/He accretors

Author

Noël, C., primary, Goriely, S., additional, Busegnies, Y., additional, and Papalexandris, M. V., additional

Published

2008

8. Hydrodynamical simulation of detonations in superbursts

Author

Noël, C., primary, Busegnies, Y., additional, Papalexandris, M. V., additional, Deledicque, V., additional, and El Messoudi, A., additional

Published

2007

9. Hydrodynamical simulations of detonations in superbursts

Author

UCL - FSA/MECA - Département de mécanique, Noël, C., Busegnies, Y., Papalexandris, Miltiadis, Goriely, S., 10th International Symposiumon Origin of Matter and Evolution of Galaxies, UCL - FSA/MECA - Département de mécanique, Noël, C., Busegnies, Y., Papalexandris, Miltiadis, Goriely, S., and 10th International Symposiumon Origin of Matter and Evolution of Galaxies

Abstract

This work presents a new hydrodynamical algorithm to study astrophysical detonations. A prime motivation of this development is the description of a carbon detonation in conditions relevant to superbursts, which are thought to result from the propagation of a detonation front around the surface of a neutron star in the carbon layer underlying the atmosphere. Methods.The algorithm we have developed is a finite-volume method inspired by the original MUSCL scheme of van Leer (1979). The algorithm is of second-order in the smooth part of the flow and avoids dimensional splitting. It is applied to some test cases, and the time-dependent results are compared to the corresponding steady state solution. Results.Our algorithm proves to be robust to test cases, and is considered to be reliably applicable to astrophysical detonations. The preliminary one-dimensional calculations we have performed demonstrate that the carbon detonation at the surface of a neutron star is a multiscale phenomenon. The length scale of liberation of energy is 106 times smaller than the total reaction length. We show that a multi-resolution approach can be used to solve all the reaction lengths. This result will be very useful in future multi-dimensional simulations. We present also thermodynamical and composition profiles after the passage of a detonation in a pure carbon or mixed carbon-iron layer, in thermodynamical conditions relevant to superbursts in pure helium accretor systems.

10. Breathing Control Exercises Delivered in a Group Setting for Patients with Chronic Obstructive Pulmonary Disease: A Randomized Controlled Trial.

Author

Cazorla S, Busegnies Y, D'Ans P, Héritier M, and Poncin W

Abstract

Breathing control exercises are an important component of occupational therapy in patients with chronic obstructive pulmonary disease (COPD). Delivering these exercises in group settings may enhance their benefits. Therefore, this study assessed the effectiveness of breathing control exercises delivered in a group format to patients with severe COPD remitting from an acute pulmonary exacerbation. This randomized controlled trial of 6 weeks' duration compared the addition of breathing exercise sessions delivered in a group setting to a standard exercise inpatient rehabilitation program (usual care) versus usual care alone. The standard exercise program consisted of endurance and strength training and therapeutic patient education. The intervention group received, in addition to usual care, 20 sessions of 30 min duration of breathing control exercises in a group setting. The primary outcome was quality of life (Saint George's Respiratory Questionnaire). Secondary outcomes were the COPD assessment test, modified Borg scale, handgrip strength test, and five-time sit-to-stand test. Thirty-seven patients aged 69 ± 7 years were recruited. After the 6-week period, all outcomes significantly improved and exceeded the minimal clinically important difference in the intervention group only. Between-group changes were significant for each outcome. Conclusions: breathing control exercises in a group setting provide clinically relevant benefits in patients with severe COPD who are remitting from an acute pulmonary exacerbation.

Published

2023

11. The Click Test: A Novel Tool to Quantify the Age-Related Decline of Fast Motor Sequencing of the Thumb.

Author

Bodranghien F, Mahe H, Baude B, Manto M, Busegnies Y, Camut S, Habas C, Marien P, de Marco G, and van Dun K

Subjects

Adult, Age Factors, Aged, Aged, 80 and over, Female, Functional Laterality, Humans, Linear Models, Male, Middle Aged, Observer Variation, Predictive Value of Tests, Reproducibility of Results, Sex Factors, Time Factors, Young Adult, Aging, Geriatric Assessment methods, Motor Activity, Neuropsychological Tests, Thumb physiopathology

Abstract

Background: The thumb plays a critical role for manual tasks during the activities of daily life and the incidence of neurological or musculoskeletal disorders affecting the voluntary movements of the thumb is high in the elderly. There is currently no tool to assess repetitive motor sequencing of the thumb during ageing., Objectives: To report a novel procedure (the Click Test) assessing the effects of ageing on fast motor sequencing of the thumb., Method: Healthy subjects (n = 252; mean age +/- SD: 49.76 +/- 19.97 years; range: 19-89 years; F/M: 151/101) were asked to perform fast repeated flexion/extension movements of the thumb using a mechanical counter., Results: Motor performances (assessed by the number of clicks during 3 time periods: 15, 30 and 45 sec), significantly decreased as a function of age for both the dominant (age effect; p< 0.0001 for 15, 30 and 45 sec) and the non-dominant hand (p<0.0001 for 15, 30 and 45 sec). The number of clicks was significantly higher in males (gender effect; p<0.001) and was higher on the dominant side as compared to the non-dominant side (handedness effect: p<0.001). The Click Test is characterized by high repeatability (coefficients of variation from 3.20 to 4.47%), excellent intra-rater reliability (intra-class coefficients ICC ranging from 0.89 to 0.98), high inter-rater reproducibility (Pearson's product correlation ranging from 0.85 to 0.96), high internal consistency (Cronbach alpha coefficient=0.95) and is highly correlated in terms of relative performances with the box and block test and the 9-hole peg test (positive linear correlation with the results of the box and block test: p<0.001 for 15, 30 and 45 sec for both the dominant and the non-dominant hand; negative linear correlation with the results of the 9-hole peg test: p<0.001 for 15, 30 and 45 sec for both the dominant and the non-dominant hand)., Conclusion: The Click Test is an entirely novel and very low cost tool to reliably discriminate the ageing effects upon the performances during fast repetitive motor sequencing of the thumb. The potential clinical and research applications for motor functions are multiple, especially in acute and chronic neurological disorders affecting the thumb as well as in the field of rheumatology and orthopedics., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published

2017

12. The electronic counting arm movement test (eCAM test).

Author

Bodranghien F, Martin C, Ansay C, Camut S, Busegnies Y, and Manto M

Subjects

Cues, Electric Stimulation instrumentation, Equipment Design, Exercise Test instrumentation, Female, Goals, Gravitation, Humans, Male, Sensory Thresholds, Time Factors, Visual Perception, Young Adult, Arm physiology, Electric Stimulation methods, Exercise Test methods, Motor Activity physiology, Muscle, Skeletal physiology

Abstract

A novel transportable electronic platform aiming to characterize the performance of successive fast vertical visually guided pointing movements toward two fixed targets (eCAM test: electronic counting arm movement test) is described and one validation test is presented. This platform is based on an Arduino(®) micro-controller and a Processing(®) routine. It records both the pointing performance (number of clicks) and the elapsed time between two successive pointing movements. Using this novel platform, we studied the effects of functional electrical stimulation (FES) applied on the dominant upper limb in 15 healthy volunteers (mean age ± SD: 22.3 ± 4.3 years; 5 males/10 females). The following muscles were stimulated: flexor carpi radialis (FCR), extensor carpi radialis (ECR), biceps brachii (BB), and triceps brachii (TB). The intensities of the stimulation were 2 and 3 mA above the sensory threshold (ST). Movement times were lesser when performed against gravity and pointing performance improved with FES. We provide the first demonstration that low-intensity FES impacts on motor performances during successive vertical goal-directed pointing movements under visual guidance. The eCAM test is currently the sole electronic tool to assess quickly and easily the performances of successive vertical pointing movements. Future potential applications include, in particular, the follow-up of the effects of neurorehabilitation of neurological/neurosurgical disorders associated with hand-eye incoordination, the functional evaluation of upper limb prosthesis or orthosis, and the analysis of the effects of FES in central or peripheral nervous system disorders.

Published

2015