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Your search keyword '"Terra, M. O."' showing total 24 results
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24 results on '"Terra, M. O."'

1. Optimal transfers from Moon to $L_2$ halo orbit of the Earth-Moon system

Author

Santos, L. B. T., Almeida Jr, Allan Kardec de, Sousa-Silva, P. A., Terra, M. O., Sanchez, D. M., Prado, S. Aljbaae A. F. B. A., and Monteiro, F.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

In this paper, we seek optimal solutions for a transfer from a parking orbit around the Moon to a halo orbit around $L_2$ of the Earth-Moon system, by applying a single maneuver and exploiting the stable invariant manifold of the hyperbolic parking solution at arrival. For that, we propose an optimization problem considering as variables both the orbital characteristics of a parking solution around the Moon, (namely, its Keplerian elements) and the characteristics of a transfer trajectory guided by the stable manifold of the arrival Halo orbit. The problem is solved by a nonlinear programming method (NLP), aiming to minimize the cost of $\Delta V$ to perform a single maneuver transfer, within the framework of the Earth-Moon system of the circular restricted three-body problem. Results with low $\Delta V$ and suitable time of flight show the feasibility of this kind of transfer for a Cubesat.

Published
2023
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2. Analysis of the dynamics of a spacecraft in the vicinity of an asteroid binary system with equal masses

Author

Santos, L. B. T., Sousa-Silva, P. A., Terra, M. O., Aljbaae, S., Sanchez, D. M., Prado, A. F. B. A., Oliveira, G. M., Monteiro, F., Almeida Jr, A. K. de, Lima, N. B., and Lima, N. B. D

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

In this work, we performed a dynamical analysis of a spacecraft around a nearly equal-mass binary near-Earth asteroid with application to the asteroid 2017 YE5, which is also a possible dormant Jupiter-family comet. Thus, we investigated the motion of a particle around this binary system using the circular restricted three-body problem. We calculated the locations of the Lagrangian points of the system and their Jacobi constant. Through numerical simulations, using the Poincar\'e Surface of Sections, it was possible to find several prograde and retrograde periodic orbits around each binary system's primary, some exhibiting significantly-sized higher-order behavior. We also calculated the stability of these orbits. After finding the periodic orbits, we investigated the influence of solar radiation pressure on these orbits. For this analysis, we considered that the area-to-mass ratio equals 0.01 and 0.1. We also performed a spacecraft lifetime analysis considering the physical and orbital characteristics of the 2017YE5 system and investigated the behavior of a spacecraft in the vicinity of this system. We analyzed direct and retrograde orbits for different values of Jacobi's constant. This study investigated orbits that survive for at least six months, not colliding or escaping the system during that time. We also analyze the initial conditions that cause the spacecraft to collide with $M_1$ or $M_2$, or escape from the system. In this work, we take into account the gravitational forces of the binary asteroid system and the solar radiation pressure (SRP). Finally, we calculated optimal bi-impulsive orbital maneuvers between the collinear Lagrangian points. We found a family of possible orbital transfers considering times of flight between 0.1 and 1 day.

Published
2023
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3. Numerical investigations of the orbital dynamics around a synchronous binary system of asteroids

Author

Santos, L. B. T., Almeida Jr, Allan Kardec de, Sousa-Silva, P. A., Terra, M. O., Sanchez, D. M., Aljbaae, S., Prado, A. F. B. A., and Monteiro, F

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

In this article, equilibrium points and families of periodic orbits in the vicinity of the collinear equilibrium points of a binary asteroid system are investigated with respect to the angular velocity of the secondary body, the mass ratio of the system and the size of the secondary. We assume that the gravitational fields of the bodies are modeled assuming the primary as a mass point and the secondary as a rotating mass dipole. This model allows to compute families of planar and halo periodic orbits that emanate from the equilibrium points $ L_1 $ and $L_2$. The stability and bifurcations of these families are analyzed and the results are compared with the results obtained with the Restricted Three-Body Problem (RTBP). The results provide an overview of the dynamical behavior in the vicinity of a binary asteroid system.

Published
2023
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5. First approximation for spacecraft motion relative to (99942) Apophis

Author

Aljbaae, S., Sanchez, D. M., Prado, A. F. B. A., Souchay, J., Terra, M. O., Negri, R. B., and Marchi, L. O.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Mathematics - Numerical Analysis, Physics - Space Physics
Abstract

We aim at providing a preliminary approach on the dynamics of a spacecraft in orbit about the asteroid (99942) Apophis during its Earth close approach. The physical properties from the polyhedral shape of the target are derived assigning each tetrahedron to a point mass in its center. That considerably reduces the computation processing time compared to previous methods to evaluate the gravitational potential. The surfaces of section close to Apophis are build considering or not the gravitational perturbations of the Sun, the planets, and the SRP. The Earth is the one that most affects the invisticated region making the vast majority of the orbits to collide or escape from the system. Moreover, from numerical analysis of orbits started on March 1, 2029, the less perturbed region is characterized by the variation of the semimajor axis of 40-days orbits, which do not exceed 2 km very close to the central body ($a < 4$ km, $e < 0.4$). However, no regions investigated could be a possible option for inserting a spacecraft into natural orbits around Apophis during the close approach with our planet. Finally, to solve the stabilization problem in the system, we apply a robust path following control law to control the orbital geometry of a spacecraft. At last, we present an example of successful operation of our orbit control with a total $\bigtriangleup v$ of 0.495 m/s for 60 days. All our results are gathered in the CPM-ASTEROID database, which will be regularly updated by considering other asteroids., Comment: 24 pages, 20 figures

Published
2020

6. Orbital Magnetism in Ensembles of Parabolic Potentials

Author

Terra, M. O., Tiago, M. L., and de Aguiar, M. A. M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the magnetic susceptibility of an ensemble of non-interacting electrons confined by parabolic potentials and subjected to a perpendicular magnetic field at finite temperatures. We show that the behavior of the average susceptibility is qualitatively different from that of billiards. When averaged over the Fermi energy the susceptibility exhibits a large paramagnetic response only at certain special field values, corresponding to comensurate classical frequencies, being negligible elsewhere. We derive approximate analytical formulae for the susceptibility and compare the results with numerical calculations., Comment: 4 pages, 4 figures, REVTEX

Published
1998
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8. Beam transport in a quadrupole electrostatic system

Author

Barroso,J. J. and Terra,M. O.

Abstract

Electron beam transport through a quadrupole electrostatic system is investigated by particle-in-cell simulation in the present work, where - at the advantage of easier experimental implementation - the analogous parabolic electrostatic potential replaces the usual neutralizing ion background of bounded plasma systems. Looking at the maximum transported current and the dynamical behavior dependence on the electron beam injection energy, we have found that for a partial neutralizing electrostatic potential (i) the transmitted current significantly increases in relation to other electrostatic devices, due mainly to two-dimensional effects, (ii) the occurrence of stable static solutions with the typical profile of unstable static solutions of the classical Pierce diode, and (iii) a new bifurcation sequence of the steady-state solutions, at which periodic virtual cathode oscillations turn into intermittent spiking oscillations, which ultimately evolve to stable oscillations when increasing the input energy of the injected electron beam.

Published
2004

10. Automatic System for Measurement and Alignment in Industrial Video Color Monitor Manufacturing Process

Author

Araujo, José Ernesto de, Dias, N. S., Portela, A. L., Silva, R. E., Liang, Z., Terra, M. O., Macau, E. E. N., Araujo, José Ernesto de, Dias, N. S., Portela, A. L., Silva, R. E., Liang, Z., Terra, M. O., and Macau, E. E. N.

Abstract

A feasible solution to the problem of measuring and aligning automatically video color monitors in industrial manufacturing process is considered in this paper. The system is comprised of an integrated mechanical and software environment, and a digital video system is used as a feedback sensing for acquiring in front of screen image. Digital image processing techniques are used to pre-process the acquired image and digital image computational methods are employed to analyze screen geometric patterns, such as geometric distortion, rotation, vertical and horizontal centralization, and dimension (height and width). For monitors with total digital control the system can check and adjust automatically the circuits that determine screen geometry by using I2C bus. The complete automatic measurement and alignment system can be used both on assembly line and quality control. Results show that the system can detect misalignment and geometric distortion, and avoid parallax effect in images of front of screen, as well as it can reduce time, improve precision, keep uniformity and increase productivity in video color monitor manufacturing line., isbn: 956-291-077-6, Pages: 404-407

Published
2001

17. Bifurcation and Chaos in Second Oscillatory Window of The Classical Pierce Diode.

Author

Barroso, J. J., Terra, M. O., and Macau, E. E. N.

Subjects
*DIODES, *CHAOS theory, *OSCILLATIONS
Abstract

The second oscillatory window of the classical Pierce diode is explored by a particle-in-cell simulation, and for the first time, results that support the existence of another chaotic region are presented. The classical Pierce model consists of a one-dimensional plasma-filled diode into which a monoenergetic electron beam is injected. This system presents a rich dynamical behavior as a function of a single control parameter α (the electron transit angle) and has four different operating regimes: stable, oscillatory, chaotic and unstable oscillatory with virtual cathode formation. The second oscillatory region, revealed by linear approximation analysis, presents a similar dynamical behavior to the first one, studied by many works and located below α 3π. By gradually diminishing &alpha from 5π, we report here, through numerical experiments, the existence of a sequence of subharmonic bifurcations leading to chaos, periodic windows, and a crisis from which just unstable oscillations with virtual cathode can be observed. [ABSTRACT FROM AUTHOR]

Published
2001
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20. First approximation for spacecraft motion relative to (99942) Apophis

Author

Safwan ALJBAAE, Sanchez, D. M., Prado, A. F. B. A., Souchay, J., Terra, M. O., Negri, R. B., and Marchi, L. O.

Subjects
Earth and Planetary Astrophysics (astro-ph.EP), Physics - Space Physics, Physics::Space Physics, FOS: Mathematics, FOS: Physical sciences, Mathematics - Numerical Analysis, Astrophysics::Earth and Planetary Astrophysics, Numerical Analysis (math.NA), Space Physics (physics.space-ph), Astrophysics - Earth and Planetary Astrophysics
Abstract

We aim at providing a preliminary approach on the dynamics of a spacecraft in orbit about the asteroid (99942) Apophis during its Earth close approach. The physical properties from the polyhedral shape of the target are derived assigning each tetrahedron to a point mass in its center. That considerably reduces the computation processing time compared to previous methods to evaluate the gravitational potential. The surfaces of section close to Apophis are build considering or not the gravitational perturbations of the Sun, the planets, and the SRP. The Earth is the one that most affects the invisticated region making the vast majority of the orbits to collide or escape from the system. Moreover, from numerical analysis of orbits started on March 1, 2029, the less perturbed region is characterized by the variation of the semimajor axis of 40-days orbits, which do not exceed 2 km very close to the central body ($a < 4$ km, $e < 0.4$). However, no regions investigated could be a possible option for inserting a spacecraft into natural orbits around Apophis during the close approach with our planet. Finally, to solve the stabilization problem in the system, we apply a robust path following control law to control the orbital geometry of a spacecraft. At last, we present an example of successful operation of our orbit control with a total $\bigtriangleup v$ of 0.495 m/s for 60 days. All our results are gathered in the CPM-ASTEROID database, which will be regularly updated by considering other asteroids., 24 pages, 20 figures

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