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Highly Accomplished Science Collaborator Exhibiting Background with NASA / GSFC, USRA, and Top Universities

Data Processing / Assembly ￨ Strategic Planning ￨ Scientific Trends Tracking

Time Series ￨ Statistical Analysis ￨ Spectroscopic Datasets ￨ Astronomical Data Cubes

Ad-Hoc Tools Development ￨ Atomic Spectroscopy ￨ High-Volume Database Management

Data Analysis / Visualization ￨ Collaborative Team Projects ￨ Graphical User Interface Development

Details-Focused Ph.D. in Astronomy Graduate who makes sound decisions to reflect positively on global science initiatives in alignment with a project s vision and goals. Top Performer who offers solutions-centric critical thinking for insightful data analysis / results, who rises above challenges to achieve noteworthy outcomes, and who quickly adapts to evolving scientific scenarios. Excellent Communicator who develops synergistic relationships with cross-geographical professionals, scientific teams, end users, and the public, and who leads peers by example and with ethics and integrity.

Lead forward-thinking management and comprehensive visualization of 3D astronomical dataset using Python / TkInter.

  Spearheaded data processing, assembling, and analysis of 3 data cubes.

  Obtained cubes with cutting-edge instruments installed on ground-based telescopes.

  Personally developed ad-hoc programs in Python for efficient data analysis and visualization purposes.

Capitalize on the opportunity to direct a top-performing global team of professionals and amateur astronomers in effectively monitoring one of the most massive stars in the Galaxy, 𝜂 Carinae, which led to approximately 400 spectra. Direct time series and statistical analysis on a spectroscopic dataset using Python and R to understand the physical nature of periodic variations observed in 𝜂 Carinae, and achieved publication in a peer-reviewed scientific paper.

  Expertly processed and analyzed 78 astronomical data cubes obtained with the Hubble Space Telescope.

  Collaborated on one of the most comprehensive, detailed spectroscopic datasets in the history of 𝜂 Carinae.

  Improved knowledge of supermassive star 𝜂 Carinae by developing ad-hoc tools in Python and IDL to perform quantitative measurements of physical properties in astronomical data obtained with Hubble Space Telescope.

Strategically steered implementation of a large-scale database for atomic spectroscopy known as AtomPy to allow users to select and download high-volume spreadsheets containing up-to-date and detailed atomic data for various ionic species.

  Successfully developed a graphical user interface for atomic data visualization using Python / TkInter.

Played a vital role in developing ad-hoc tools in Python and Shell Script for management, processing, and data visualization of spectroscopic datasets developed from both present and / or historical spectra of 𝜂 Carinae star.

Ph.D., Astronomy (2009) University of S o Paulo, S o Paulo, Brazil

Developed GUI for Data Visualization & Analysis.

Scientific Research on Photometric & Spectroscopic Periodic Variations Observed in Supermassive Star 𝜂 Carinae.

Developed Programs in Shell Script (Bourne / Bourne Again Shell), IDL, and Python for Efficient Database Management.

M.S., Astronomy (2005) University of S o Paulo, S o Paulo, Brazil

Scientific Research and 3D Modeling of Nebula Around Supermassive Star 𝜂 Carinae.

Developed IDL Programs to Read / Write, Process, Reduce, and Analyze Astronomical Data in 3D Format.

Implemented Shell Script (Bourne / Bourne Again Shell) Codes into Data Processing Pipeline for Automation Purposes.

B.S., Physics (2002) S o Paulo State University, S o Paulo, Brazil

Developed Scientific Programs in FORTRAN 77.

Programming: Software Development (13 Years) ￨ Ad-Hoc Codes Development (i.e. Python ￨ IDL ￨ R)

Front-End Web Development: Web Development Technologies (3 Years ￨ HTML5 ￨ CSS ￨ JavaScript)

Web JS Libraries / Frameworks (Angular ￨ Vue.js ￨ jQuery ￨ Bootstrap ￨ Django)

Back-End Web Development: Database Management ￨ Server Set-Up ￨ Django ￨ node.js

Operating Systems: Mac OS X ￨ Linux ￨ Git VCS ￨ GitHub Repository Workflow ￨ Windows OS

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Retrieved from NASA / ADS in March 2016 (ℎ-factor=10) Listing Most Recent Publication First

[1] Teodoro, M., A. Damineli, B. Heathcote, N. D. Richardson, A. F. J. Moffat, L. St-Jean, C. Russell, T. R. Gull, T. I. Madura, K. R. Pollard, F. Walter, A. Coimbra, R. Prates, E. Fern ndez-Laj s, R. C. Gamen, G. Hickel, W. Henrique, F. Navarete, T. Andrade, F. Jablonski, P. Luckas, M. Locke, J. Powles, T. Bohlsen, R. Chini, M. F. Corcoran, K. Hamaguchi, J. H. Groh, D. J. Hillier, and G. Weigelt. He II 𝜆4686 Emission from the Massive Binary System in 𝜆 Car: Constraints to the Orbital Elements and the Nature of the Periodic Minima . In: ApJ 819, 131 (Mar. 2016), p. 131. DOI: 10.3847/0004-637X/819/2/131. arXiv: 1601.03396 [astro-ph.SR].

[2] K. Hamaguchi, M. F. Corcoran, C. M. P. Russell, A. M. T. Pollock, T. R. Gull, Teodoro, M., T. I. Madura, A. Damineli, and J. M. Pittard. X-Ray Emission from Eta Carinae near Periastron in 2009. I. A Two-state Solution . In: ApJ 784, 125 (Apr. 2014), p. 125. DOI: 10.1088/0004-637X/784/2/125. arXiv: 1401.5870 [astro-ph.SR].

[3] W. Steffen, Teodoro, M., T. I. Madura, J. H. Groh, T. R. Gull, A. Mehner, M. F. Corcoran, A. Damineli, and K. Hamaguchi. The three-dimensional structure of the Eta Carinae Homunculus . In: MNRAS 442 (Aug. 2014), pp. 3316 3328. DOI: 10.1093/mnras/stu1088. arXiv: 1407.4096 [astro-ph.SR].

[4] T. I. Madura, T. R. Gull, A. T. Okazaki, C. M. P. Russell, S. P. Owocki, J. H. Groh, M. F. Corcoran, K. Hamaguchi, and Teodoro, M. Constraints on decreases in 𝜂 Carinae s mass-loss from 3D hydrodynamic simulations of its binary colliding winds . In: MNRAS 436 (Dec. 2013), pp. 3820 3855. DOI: 10 . 1093 / mnras / stt1871. arXiv: 1310 . 0487 [astro-ph.SR].

[5] Teodoro, M., T. I. Madura, T. R. Gull, M. F. Corcoran, and K. Hamaguchi. Detection of the Compressed Primary Stellar Wind in 𝜂 Carinae . In: ApJ 773, L16 (Aug. 2013), p. L16. DOI: 10.1088/2041-8205/773/1/L16. arXiv: 1307.3244 [astro-ph.SR].

[6] Teodoro, M., A. Damineli, J. I. Arias, F. X. de Ara jo, R. H. Barb , M. F. Corcoran, M. Borges Fernandes, E. Fern ndez-Laj s, L. Fraga, R. C. Gamen, J. F. Gonz lez, J. H. Groh, J. L. Marshall, P. J. McGregor, N. Morrell, D. C. Nicholls, E. R. Parkin, C. B. Pereira, M. M. Phillips, G. R. Solivella, J. E. Steiner, M. Stritzinger, I. Thompson, C. A. O. Torres, M. A. P. Torres, and M. I. Zevallos Herencia. He II 𝜆4686 in 𝜂 Carinae: Collapse of the Wind-Wind Collision Region during Periastron Passage . In: ApJ 746, 73 (Feb. 2012), p. 73. DOI: 10.1088/0004-637X/746/1/73. arXiv: 1104.2276 [astro-ph.SR].

[7] J. H. Groh, K. E. Nielsen, A. Damineli, T. R. Gull, T. I. Madura, D. J. Hillier, Teodoro, M., T. Driebe, G. Weigelt, H. Hartman, F. Kerber, A. T. Okazaki, S. P. Owocki, F. Millour, K. Murakawa, S. Kraus, K.-H. Hofmann, and D. Schertl. Detection of high-velocity material from the wind-wind collision zone of Eta Carinae across the 2009.0 periastron passage . In: A&A 517, A9 (July 2010), A9. DOI: 10.1051/0004-6xxx-xxx-xxxx37. arXiv: 1003.4527 [astro-ph.SR].

[8] J. H. Groh, A. Damineli, D. J. Hillier, R. Barb , E. Fern ndez-Laj s, R. C. Gamen, A. P. Mois s, G. Solivella, and Teodoro, M.. Bona Fide, Strong-Variable Galactic Luminous Blue Variable Stars are Fast Rotators: Detection of a High Rotational Velocity in HR Carinae . In: ApJ 705 (Nov. 2009), pp. L25 L30. DOI: 10.1088/0004-637X/705/1/L25. arXiv: 0909.4459 [astro-ph.SR].

[9] A. Damineli, D. J. Hillier, M. F. Corcoran, O. Stahl, J. H. Groh, J. Arias, Teodoro, M., N. Morrell, R. Gamen, F. Gonzalez, N. V. Leister, H. Levato, R. S. Levenhagen, M. Grosso, J. F. A. Colombo, and G. Wallerstein. A multispectral view of the periodic events in 𝜂 Carinae . In: MNRAS 386 (June 2008), pp. 2330 2344. DOI: 10.1111/j.0000 xxxxxx xxxx , xxxx , xxxxx 00000.x. arXiv: 0711.4297.

[10] A. Damineli, D. J. Hillier, M. F. Corcoran, O. Stahl, R. S. Levenhagen, N. V. Leister, J. H. Groh, Teodoro, M., J. F. Albacete Colombo, F. Gonzalez, J. Arias, H. Levato, M. Grosso, N. Morrell, R. Gamen, G. Wallerstein, and V. Niemela. The periodicity of the 𝜂 Carinae events . In: MNRAS 384 (Mar. 2008), pp. 1649 1656. DOI: 10.1111/j.0000 xxxxxx xxxx , xxxx , xxxxx 00000.x. arXiv: 0711.4250.

[11] Teodoro, M., A. Damineli, R. G. Sharp, J. H. Groh, and C. L. Barbosa. Near-infrared inte- gral field spectroscopy of the Homunculus nebula around 𝜂 Carinae using Gemini/CIRPASS . In: MNRAS 387 (June 2008), pp. 564 576. DOI: 10.1111/j.1365-2966.2008.13264.x. arXiv: 0804.0240.

[12] J. H. Groh, A. Damineli, Teodoro, M., and C. L. Barbosa. Detection of additional WolfRayet stars in the starburst cluster Westerlund 1 with SOAR . In: A&A 457 (Oct. 2006), pp. 591 594. DOI: 10.1051/0004-6xxx-xxx-xxxx9. eprint: astro-ph/0606498.

[13] S. L. Skinner, A. E. Simmons, S. A. Zhekov, Teodoro, M., A. Damineli, and F. Palla. A Rich Population of X-Ray-emitting Wolf-Rayet Stars in the Galactic Starburst Cluster Westerlund 1 . In: ApJ 639 (Mar. 2006), pp. L35 L38. DOI: 10 . 1086 / 502627. eprint: astro-ph/0601550.

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[1] T. Madura, N. Richardson, L. St-Jean, A. F. J. Moffat, T. R. Gull, A. Damineli, Teodoro, M., M. F. Corcoran, F. M. Walter, N. Clementel, J. H. Groh, K. Hamaguchi, D. J. Hillier, and C. M. Post Russell. To v∞ and Beyond! The He I absorption variability across the 2014.6 periastron passage of the supermassive binary 𝜂 Carinae . In: American Astronomical Society Meeting Abstracts. Vol. 227. American Astronomical Society Meeting Abstracts. Jan. 2016, p. 344.20.

[2] Teodoro, M., A. Damineli, N. Richardson, A. F. J. Moffat, L. St-Jean, C. M. Post Russell, T. R. Gull, T. Madura, K. Pollard, F. M. Walter, A. Coimbra, R. Prates, E. Fern ndez-Laj s, r. gamen, G. Hickel, W. Henrique, F. Navarete, T. Andrade, F. Jablonski, M. F. Corcoran, K. Hamaguchi, J. H. Groh, D. J. Hillier, W. Gerd, Jonathan Powles SASER Team members: Bernard Heathcote Malcolm Locke (Canterbury Astronomical Society), and P. L. (. U. o. W. A. Terry Bohlsen. Unveiling the nature of the He II 𝜆4686 periodic minima in 𝜂 Carinae . In: American Astronomical Society Meeting Abstracts. Vol. 227. American Astronomical Society Meeting Abstracts. Jan. 2016, p. 317.01.

[3] M. F. Corcoran, K. Hamaguchi, J. Liburd, T. R. Gull, T. Madura, Teodoro, M., A. F. J. Moffat, N. Richardson, C. M. P. Russell, A. Pollock, and S. P. Owocki. The X-ray Lightcurve of Eta Carinae, 1996-2014 . In: American Astronomical Society Meeting Abstracts. Vol. 225. American Astronomical Society Meeting Abstracts. Jan. 2015, p. 344.15.

[4] T. Eversberg, E. J. Aldoretta, J. H. Knapen, A. F. J. Moffat, T. Morel, T. Ramiaramanantsoa, G. Rauw, N. D. Richardson, N. St-Louis, and Teodoro, M.. World-wide amateur observations . In: Wolf-Rayet Stars: Proceedings of an International Workshop held in Potsdam, Germany, 15 June 2015. Edited by Wolf-Rainer Hamann, Andreas Sander, Helge Todt. Universit tsverlag Potsdam, 2015., p.71-74. Ed. by W.-R. Hamann, A. Sander, and H. Todt. 2015, pp. 71 74.

[5] T. R. Gull, T. Madura, M. F. Corcoran, Teodoro, M., N. Richardson, K. Hamaguchi, J. H. Groh, D. J. Hillier, A. Damineli, and G. Weigelt. The interacting winds of Eta Carinae: Observed forbidden line changes and the Forbidden Blue(-Shifted) Crab . In: American Astronomical Society Meeting Abstracts. Vol. 225. American Astronomical Society Meeting Abstracts. Jan. 2015, p. 344.16.

[6] T. Madura, T. R. Gull, N. Clementel, J.-P. Paardekooper, C. Kruip, M. F. Corcoran, K. Hamaguchi, and Teodoro, M.. 3D Printing Meets Computational Astrophysics: Deciphering the Structure of Eta Carinaes Colliding Winds Using 3D Prints of Smoothed Particle Hydrodynamics Simulations . In: American Astronomical Society Meeting Abstracts. Vol. 225. American Astronomical Society Meeting Abstracts. Jan. 2015, p. 344.22.

[7] W. Steffen, Teodoro, M., T. Madura, J. H. Groh, T. R. Gull, M. F. Corcoran, A. Damineli, and K. Hamaguchi. 3D Model of the Eta Carinae Little Homunculus Nebula . In: Amer- ican Astronomical Society Meeting Abstracts. Vol. 225. American Astronomical Society Meeting Abstracts. Jan. 2015, p. 344.20.

[8] Teodoro, M., T. R. Gull, M. Bautista, D. J. Hillier, and G. Weigelt. On the changes in the physical properties of the ionized region around the Weigelt structures in 𝜂 Carinae over the 5.54-yr spectroscopic cycle . In: American Astronomical Society Meeting Abstracts. Vol. 225. American Astronomical Society Meeting Abstracts. Jan. 2015, p. 344.21.

[9] T. R. Gull, T. Madura, M. F. Corcoran, K. Hamaguchi, and Teodoro, M.. Mapping the interacting winds of Eta Carinae: Changes Across the Apastron . In: American Astronomical Society Meeting Abstracts #223. Vol. 223. American Astronomical Society Meeting Abstracts. Jan. 2014, p. 151.04.

[10] K. Hamaguchi, M. F. Corcoran, C. M. Russell, A. M. Pollock, T. R. Gull, Teodoro, M., T. Madura, A. Damineli, and J. M. Pittard. X-ray Emission from Eta Carinae near Periastron in 2009: Origin of the X-ray Minimum . In: American Astronomical Society Meeting Abstracts #223. Vol. 223. American Astronomical Society Meeting Abstracts. Jan. 2014, p. 151.11.

[11] T. Madura, T. R. Gull, A. T. Okazaki, C. M. Russell, S. P. Owocki, J. H. Groh, M. F. Corcoran, K. Hamaguchi, and Teodoro, M. Constraints on decreases in Eta Carinae s mass loss from 3D SPH simulations of its binary colliding winds . In: American Astronomical Society Meeting Abstracts #223. Vol. 223. American Astronomical Society Meeting Abstracts. Jan. 2014, p. 155.26.

[12] A. Damineli, L. de Almeida, Teodoro, M. M., and F. J. Jablonski. The Fundamental Parameters of the Starburst Cluster Westerlund 1 . In: Massive Stars: From alpha to Omega. June 2013, p. 62.

[13] T. R. Gull, D. J. Hillier, T. Madura, M. F. Corcoran, K. Hamaguchi, and Teodoro, M.. What is Changing in Eta Car? In: American Astronomical Society Meeting Abstracts. Vol. 222. American Astronomical Society Meeting Abstracts. June 2013, p. 317.05.

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[14] A. Damineli and Teodoro, M.. He II 𝜆4686 in 𝜂 Carinae and Wind Collapse at Periastron . In: Proceedings of a Scientific Meeting in Honor of Anthony F. J. Moffat. Ed. by L. Drissen, C. Robert, N. St-Louis, and A. F. J. Moffat. Vol. 465. Astronomical Society of the Pacific Conference Series. Dec. 2012, p. 319.

[15] A. Damineli, Teodoro, M., M. F. Corcoran, and J. H. Groh. 𝜂 Carinae long-term variability . In: Active OB Stars: Structure, Evolution, Mass Loss, and Critical Limits. Ed. by C. Neiner, G. Wade, G. Meynet, and G. Peters. Vol. 272. IAU Symposium. July 2011, pp. 604 605. DOI: 10.1017/S0000 xxxxxx xxxx , xxxx , xxxxx 000003. arXiv: 1009.4399 [astro-ph.SR].

[16] K. E. Nielsen, J. H. Groh, J. Hillier, T. R. Gull, T. I. Madura, S. P. Owocki, A. T. Okazaki, A. Damineli, Teodoro, M., G. Weigelt, and H. Hartman. High Velocity Absorption during Eta Car B s periastron passage . In: American Astronomical Society Meeting Abstracts #215. Vol. 42. Bulletin of the American Astronomical Society. Jan. 2010, p. 341.

[17] S. L. Skinner, A. Damineli, F. Palla, S. A. Zhekov, A. E. Simmons, and Teodoro, M.. Chandra and NTT Observations of Massive Young Stars in the Heavily Reddened Galactic Cluster Westerlund 1 . In: American Astronomical Society Meeting Abstracts. Vol. 37. Bulletin of the American Astronomical Society. Dec. 2005, p. 1279.

[1] K. Hamaguchi, S. A. Drake, M. F. Corcoran, N. Richardson, and Teodoro, M.. A gigantic X-ray flare from the star Trumpler 14 Y442 in the Carina star forming complex. Tech. rep. Sept. 2015.

[2] M. F. Corcoran, J. Liburd, K. Hamaguchi, T. Gull, T. Madura, Teodoro, M., A. Moffat, N. Richardson, C. Russell, A. Pollock, and S. Owocki. eta Carinae Emerging from the X-ray Minimum. Tech. rep. Sept. 2014.

[3] M. F. Corcoran, J. Liburd, K. Hamaguchi, T. Gull, T. Madura, Teodoro, M., A. Moffat, C. Russell, A. Pollock, and S. Owocki. Recent X-ray Activity of Eta Car as Seen by the Swift/XRT. Tech. rep. July 2014.

[4] M. F. Corcoran, J. Liburd, K. Hamaguchi, T. Gull, T. Madura, Teodoro, M., A. Moffat, N. Richardson, C. Russell, A. Pollock, and S. Owocki. Start of Eta Car s X-ray Minimum. Tech. rep. Aug. 2014.

[5] J. Liburd, M. F. Corcoran, K. Hamaguchi, T. Gull, T. Madura, Teodoro, M., A. Moffat, N. Richardson, C. Russell, A. Pollock, and S. Owocki. Decline of the 2-10 keV Emission from Eta Carinae. Tech. rep. July 2014.

[6] N. D. Richardson, L. St-Jean, T. Gull, T. Madura, D. J. Hillier, Teodoro, M., A. Moffat, M. Corcoran, and A. Damineli. Detection of High Velocity Absorption Components in the He I lines of eta Carinae near the time of Periastron. Tech. rep. July 2014.

[7] N. D. Richardson, A. Damineli, T. Gull, A. Moffat, J. Groh, L. St-Jean, F. M. Walter, Teodoro, M., T. Madura, D. J. Hillier, M. Corcoran, K. Hamaguchi, and C. Russell. Multiple Absorption Components in the post-periastron He I P Cygni Absorption Troughs of eta Carinae. Tech. rep. Nov. 2014.

[8] Teodoro, M., B. Heathcote, N. Richardson, P. Luckas, F. Walter, R. Prates, G. Hickel, A. M. Coimbra, F. Navarete, M. Locke, T. Bohlsen, A. Damineli, F. Jablonski, W. Henrique, J. Powles, J. West, T. A. Andrade, E. Fernandez-Lajus, T. Gull, M. F. Corcoran, J. H. Groh, K. Hamaguchi, T. Madura, L. St-Jean, and G. Weigelt. He II 4686 in eta Carinae: no significant changes between 2009.0 and 2014.6. Tech. rep. Sept. 2014.

[9] Teodoro, M., B. Heathcote, N. Richardson, R. Prates, A. Damineli, G. Hickel, T. Bohlsen, P. Luckas, M. Locke, F. Navarete, J. West, T. A. Andrade, A. M. Coimbra, E. FernandezLajus, T. Gull, F. Jablonski, M. F. Corcoran, J. H. Groh, K. Hamaguchi, T. Madura, L. St-Jean, and G. Weigelt. The stability of the He II 4686 line emission across periastron passages in eta Carinae. Tech. rep. Aug. 2014.

[10] A. Damineli, J. Steiner, J. H. Groh, L. Fraga, Teodoro, M., E. Fern ndez Laj s, F. Gonzalez, R. Gamen, M. Borges Fernandes, C. B. Pereira, C. A. P. C. O. Torres, M. I. Zevallos Herencia, and N. Morrell. eta Carinae. Tech. rep. Jan. 2009