NASSCORP Retires 10, Honors Several Others

first_imgThe National Social Security and Welfare Corporation (NASSCORP) on Wednesday, December 14, retired 10 employees for passing the age of retirement, and honored 23 others for long service, a release has said.The release named those retired as Gloria Dennis, A. B. Kemokai, Dee Zoe Lake, Joseph Lackay, Jr., H. Beatrice Hoff-Dennis, Joseph Ross, Josiah Freeman, Augustine Paytoe, Joseph Bedell and George Chea. Those honored for long service included Dewitt von Ballmoos, Director-General, 10 years; Varnie Tamba and Omega Doe-Browne, 30 years; Wellington Sendolo, J. Waylah Yehyee, Tenneh Jardia, Felecia Kromah, Sie Baker, Kau Dolo and R. Varney Coker, 20 years.Honored for 15 years are Terrance Folly, Myrtle Johnson, Lorenzao Fleming and Elizabeth Zeon, while Charles Davies, Joseph Lackay Jr., Weber Dossen, Joseph N. Chounse, Julius Barlea Jr., Matthew Opene, T. Barnabas Govego, Samuel Kollie and Mamadee Bamba were honored for 10 years respectively.Mr. von Ballmoos said it was with distinct honor that NASSCORP retired and honored its employees, who have served the corporation with “dedication and commitment.”He said the NASSCORP Management was proud to acknowledge and pay tribute to a unique corps of individuals who “personify NASSCORP’s constant pursuit of excellence.”According to von Ballmoos, the corporation will miss the retirees, but said the corporation will consult them when the need arises, because each of them served “diligently” and needed to be retired for their long service.He referred to the retirees as the “institutional memory of NASSCORP” noting that retirement does not mean the employee cannot contribute to society, but to take rest after serving their country diligently.Also speaking, the chairman of the Board of Directors of NASSCORP, Madam Miata Beysolow, thanked the retirees and honorees for their selfless services to the corporation.On behalf of the retirees, Mrs. H. Beatrice Hoff-Dennis thanked management for the support given them during their respective tenure.The program brought together dignitaries including government officials, members of the corporation’s Board of Directors, former Directors General, distinguished invitees, management and staff. Share this:Click to share on Twitter (Opens in new window)Click to share on Facebook (Opens in new window)last_img read more

Updated NASAs new satellite brings the search for Earthlike exoplanets closer to

first_imgA new probe seeks rocky exoplanets orbiting red dwarf stars, as shown in this artist’s impression. After a 2-day delay for extra checks, NASA’s latest exoplanet-hunting satellite, the Transiting Exoplanet Survey Satellite (TESS), launched yesterday on a SpaceX Falcon 9 rocket. Within an hour, the solar arrays that will power the spacecraft were deployed. TESS is the first of a new generation of exoplanet hunters that will home in on temperate worlds close to Earth.The brainchild of researchers at the Massachusetts Institute of Technology (MIT) in Cambridge, the $337 million project aims to identify at least 50 rocky exoplanets—Earth-size or bigger—close enough for their atmospheres to be scrutinized by the much larger James Webb Space Telescope (JWST), due for launch in 2020, or giant ground-based telescopes now under construction. “Where do we point Webb?” TESS Principal Investigator George Ricker asked rhetorically at the American Astronomical Society annual meeting at National Harbor in Maryland in January. “This is the finder scope.”Yesterday’s launch went smoothly, but it will be a couple of months before TESS starts work. Over the next several weeks, TESS will use boosters to elongate its orbit until it reaches as far as the moon. It will then use the moon’s gravity to boost it into a particular 13.7-day orbit never before used by a satellite, which swings between 400,000 and 100,000 kilometers above Earth. To save on power, TESS will take advantage of each close approach to Earth by turning its antenna toward home to transmit data it has collected in a 3-hour download. The orbit is synchronized with that of the moon; for every lunar orbit, TESS does two. This helps by using the moon’s gravity to stabilize TESS’s orbit, so it can stay on this trajectory for decades with little need for adjustment by thrusters. By Daniel CleryApr. 19, 2018 , 4:30 AM Then, after 60 days of checks, TESS will begin scanning the skies for exoplanets.Over 9 years in space, NASA’s pioneering Kepler probe has already found more than 2600 confirmed exoplanets, implying hundreds of billions in the Milky Way. But TESS and other upcoming projects sacrifice sheer numbers and target Earth-size planets whose composition, atmosphere, and climate—factors in whether they might be hospitable to life—could be studied.Like Kepler, TESS finds planets by staring at stars and looking for a dip in brightness as a planet passes in front, blocking some of the star’s light in a so-called transit. But whereas Kepler kept a fixed view, watching just 0.25% of the sky out to a distance of 3000 light-years, TESS will maneuver to observe 85% of it, out to about 300 light-years.The spacecraft carries four telescopes that together will survey a strip of sky extending from the solar system’s pole to its equator, known as the ecliptic. The scopes will watch a strip for 27 days, then shift sideways and repeat the process. After observing 13 such strips over a year, covering almost an entire hemisphere of sky, TESS will flip over and survey the other hemisphere.Over 2 years, TESS should measure the brightness of some 2 million stars, says project scientist Stephen Rinehart of NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “If there is one planet per star [as Kepler predicts], we will see many. It’ll be a firehose of data.”TESS’s primary targets are red dwarf stars, the most common stars in our neighborhood. Red dwarfs weigh less than half as much as the sun, so they do not burn brightly, offering several advantages to exoplanet hunters. A planet passing in front of a small, dim red dwarf blocks more of its light, yielding a stronger transit signal. Moreover, planets can whip around red dwarfs in orbits closer than Mercury’s and still have hospitable climates. More orbits mean more opportunities for transit detections. TESS researchers are targeting speedsters that would circle the star at least twice during a 27-day TESS watch. Spotting two transits is key because it tells astronomers the length of the planet’s orbit. Other features of the transit—its duration, how much light is blocked, and how quickly the brightness dips—provide additional details such as the planet’s diameter.Transits don’t reveal a planet’s mass, however, which is vital to determining its density—a clue to whether it is made of iron, rock, or ice. For this, TESS is relying on follow-up studies by ground-based telescopes, which can watch for tiny periodic Doppler shifts in the frequency of a star’s light caused by an orbiting planet tugging on it. The shift is a clue to the planet’s mass. Of the 5000 transitlike signals that the TESS team expects to detect, the clearest will be chosen for ground-based follow-up, says MIT’s Sara Seager, the mission’s deputy science director. The aim is to identify and weigh 50 planets to serve up to the JWST.Although detecting planets around red dwarfs is easier, life may be less likely to arise there. Red dwarfs are erratic, prone to blasts of lethal radiation, and because the planets are so close, “they feel the effects of the star,” says NASA astronomer Elisa Quintana, who also works at Goddard. Close-in planets are also likely to be “tidally locked,” with one side always facing the star in an eternal scorching day while the other side freezes in an endless night. “Can they be habitable?” Quintana asks. “The debate goes back more than 10 years.”Later this year, the European Space Agency will launch another eye on exoplanets: the Characterising Exoplanets Satellite. Rather than searching for new worlds, it will take a second, much longer look at transits of known planets to pin down their sizes more precisely. In combination with mass measurements from the ground, that should provide a better fix on planets’ densities.Also debuting in the next few months is a ground-based search in Chile: SPECULOOS, the search for habitable planets eclipsing ultracool stars. The project’s four 1-meter telescopes have near-infrared sensors to detect transits of the very dimmest, coolest stars; a similar array in the Canary Islands will survey the northern sky. These stars are too faint for TESS’s small telescopes to see, but they could give the JWST valuable targets, says Michaël Gillon of the University of Liège in Belgium, which is leading the project.SPECULOOS may be especially sensitive to small planets because even small bodies will block noticeable amounts of light from the dim target stars. “TESS will find many more planets, but in the temperate—and potentially habitable—Earth-size regime, SPECULOOS’s detection potential should be significantly better,” Gillon says. “The next years are going to be very exciting!”*Updated, 19 April, 4:30 a.m.: This story was originally posted on 28 March and updated on 19 April after TESS’s launch. Email Sign up for our daily newsletter Get more great content like this delivered right to you! Countrycenter_img Updated: NASA’s new satellite brings the search for Earth-like exoplanets closer to home Click to view the privacy policy. 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