Your search keyword '"Soong, Yang"' showing total 12 results

1. Performance of NICER Flight X-Ray Concentrator

Author

Okajima, Takashi, Soong, Yang, Balsamo, Erin R, Enoto, Teruaki, Olsen, Larry, Koenecke, Richard, Lozipone, Larry, Kearney, John, Fitzsimmons, Sean, Numata, Ai, Kenyon, Steven J, Arzoumanian, Zaven, and Gendreau, Keith

Subjects

Astronomy, Instrumentation And Photography

Abstract

Neutron star Interior Composition ExploreR (NICER) is a NASA instrument to be onboard International Space Station, which is equipped with 56 pairs of an X-ray concentrator (XRC) and a silicon drift detector for high timing observations. The XRC is based on an epoxy replicated thin aluminum foil X-ray mirror, similar to those of Suzaku and ASTRO-H (Hitomi), but only a single stage parabolic grazing incidence optic. Each has a focal length of 1.085 m and a diameter of 105 mm, with 24 confocally aligned parabolic shells. Grazing incident angles to individual shells range from 0.4 to 1.4 deg. The flight 56 XRCs have been completed and successfully delivered to the payload integration. All the XRC was characterized at the NASA/GSFC 100-m X-ray beamline using 1.5 keV X-rays (some of them are also at 4.5 keV). The XRC performance, effective area and point spread function, was measured by a CCD camera and a proportional counter. The average effective area is about 44 sq cm at 1.5 keV and about 18 sq cm at 4.5 keV, which is consistent with a micro-roughness of 0.5 nm from individual shell reflectivity measurements. The XRC focuses about 91% of X-rays into a 2mm aperture at the focal plane, which is the NICER detector window size. Each XRC weighs only 325 g. These performance met the project requirement. In this paper, we will present summary of the flight XRC performance as well as co-alignment results of the 56 XRCs on the flight payload as it is important to estimate the total effective for astronomical observations.

Published

2016

2. X-Ray Polarization Capabilities of a Small Explorer Mission

Author

Jahoda, Keith M, Black, J. Kevin, Hill, Joanne E, Kallman, Timothy R, Kaaret, Philip, Markwardt, B, Okajima, Takashi, Petre, Robert, Soong, Yang, and Strohmayer, Tod E

Subjects

Instrumentation And Photography, Astronomy

Abstract

X-ray polarization measurements hold great promise for studying the geometry and emission mechanisms in the strong gravitational and magnetic fields that surround black holes and neutron stars. In spite of this, the observational situation remains very limited; the last instrument dedicated to X-ray polarimetry flew decades ago on OSO-8, and the few recent measurements have been made by instruments optimized for other purposes. However, the technical capabilities to greatly advance the observational situation are in hand. Recent developments in micro-pattern gas detectors allow use of the polarization sensitivity of the photo-electric effect, which is the dominant interaction in the band above 2 keV. We present the scientific and technical requirements for an X-ray polarization observatory consistent with the scope of a NASA Small Explorer (SMEX) mission, along with a representative catalog of what the observational capabilities and expected sensitivities for the first year of operation could be. The mission is based on the technically robust design of the Gravity and Extreme Magnetism SMEX (GEMS) which completed a Phase B study and Preliminary Design Review in 2012. The GEMS mission is enabled by time projection detectors sensitive to the photo-electric effect. Prototype detectors have been designed, and provide engineering and performance data which support the mission design. The detectors are further characterized by low background, modest spectral resolution, and sub-millisecond timing resolution. The mission also incorporates high efficiency grazing incidence X-ray mirrors, design features that reduce systematic errors (identical telescopes at different azimuthal angles with respect to the look axis, and mounted on a rotating spacecraft platform), and a moderate capability to perform Target of Opportunity observations. The mission operates autonomously in a low earth, low inclination orbit with one to ten downlinks per day and one or more uplinks per week. Data and calibration products will be made available through the High Energy Astrophysics Science and Archival Research Center (HEASARC).

Published

2014

3. Production and performance of the InFOC[mu]S 20-40-keV graded multilayer mirror

Author

Berendse, Fred, Owens, Scott M., Serlemitsos, Peter J., Tueller, Jack, Chan, Kai-Wing, Soong, Yang, Krimm, Hans, Baumgartner, Wayne H., Ogasaka, Yasushi, Tamura, Keisuke, Okajima, Takashi, Tawara, Yuzuru, Yamashita, Koujun, Misaki, Kazutami, and Kunieda, Hideyo

Subjects

Optics -- Research, Telescope -- Design and construction, X-ray astronomy -- Equipment and supplies, X-ray telescope -- Design and construction, Astronomy, Physics

Abstract

The International Focusing Optics Collaboration for [mu]Crab Sensitivity (InFOC[mu]S) balloonborne hard x-ray telescope incorporates graded Pt/C multilayers replicated onto segmented A1 foils to obtain the significant effective area at energies previously inaccessible to x-ray optics. Reflectivity measurements of individual foils demonstrate our capability to produce a mass quantity of multilayered foils with arms roughness of 0.5 nm. The effective area of the completed mirror is 78 and 22 [cm.sup.2] at 20 and 40 keV, respectively. The measured half-power diameter is 2.0 [+ or -] 0.5 arc rain (90% confidence). The successful completion of this mirror demonstrates its applicability to future x-ray telescopes such as Constellation-X. OCIS codes: 110.6770, 110.7440, 310.1860, 340.7440, 340.7470, 350.1270.

Published

2003

4. Characterization of the supermirror hard-x-ray telescope for the InFOC[mu]S balloon experiment

Author

Okajima, Takashi, Tamura, Keisuke, Ogasaka, Yasushi, Haga, Kazutoshi, Takahashi, Seiji, Ichimaru, Satoshi, Kito, Hideo, Fukuda, Shin'ichi, Goto, Arifumi, Nomoto, Kentaro, Satake, Hiroyuki, Kato, Seima, Kamata, Yuichi, Furuzawa, Akihiro, Akimoto, Fumie, Yoshioka, Tsutomu, Kondo, Kazumasa, Haba, Yoshito, Tanaka, Takeshi, Wada, Keiichi, Hamada, Noriyuki, Hudaverdi, Murat, Tawara, Yuzuru, Yamashita, Koujun, Serlemitsos, Peter J., Soong, Yang, Chan, Kai-Wing, Owens, Scott M., Berendse, Fred B., Tueller, Jack, Misaki, Kazutami, Shibata, Ryo, Mori, Hideyuki, Itoh, Kei, Kunieda, Hideyo, and Namba, Yoshiharu

Subjects

Optics -- Research, X-ray telescope -- Research, Astronomy, Physics

Abstract

A hard-x-ray telescope is successfully produced for balloon observations by making use of depth-graded multilayers, or so-called supermirrors, with platinum-carbon (Pt/C) layer pairs. It consists of four quadrant units assembled in an optical configuration with a diameter of 40 cm and a focal length of 8 m. Each quadrant is made of 510 pieces of coaxially and confocally aligned supermirrors that significantly enhance the sensitivity in an energy range of 20-40 keV. The configuration of the telescope is similar to the x-ray telescope onboard Astro-E, but with a longer focal length. The reflectivity of supermirrors is of the order of 40% in the energy range concerned at a grazing angle of 0.2 deg. The effective area of a fully assembled telescope is 50 [cm.sup.2] at 30 keV. The angular resolution is 2.37 arc min at half-power diameter 8.0 keV. The field of view is 12.6 arc min in the hard-x-ray region, depending somewhat on x-ray energies. We discuss these characteristics, taking into account the figure errors of reflectors and their optical alignment in the telescope assembly. This hard-x-ray telescope is unanimously afforded in the International Focusing Optics Collaboration for [mu] Crab Sensitivity balloon experiment.

Published

2002

5. ASTRO-H Soft X-Ray Telescope (SXT)

Author

Soong, Yang, Serlemitsos Peter J, Okajima, Takashi, and Hahne, Devin

Subjects

Astronomy

Abstract

ASTRO-H is an astrophysics satellite dedicated for X-ray spectroscopic study non-dispersively and to carry out survey complementally, which will be borne out of US-Japanese collaborative effort. Among the onboard instruments there are four conically approximated Wolter-I X-ray mirrors, among which two of them are soft X-ray mirrors\ of which the energy range is from a few hundred eV to 15 keY, currently being fabricated in the X-ray Optics Lab at Goddard Space Flight Center. The focal point instruments will be a calorimeter (SXS) and a CCD camera (SXI), respectively. The reflectors of the mirror are made of heat-formed aluminum substrate of the thickness gauged of 152 micron, 229 micron, and 305 micron of the alloy 5052 H-19, followed by epoxy replication on gold-sputtered smooth Pyrex cylindrical mandrels to acquire the X-ray reflective surface. The epoxy layer is 10 micron nominal and surface gold layer of 0.2 micron. Improvements on angular response over the Astro-El/Suzaku mirrors come from error reduction on the figure, the roundness, and the grazing angle/radius mismatching of the reflecting surface, and tighter specs and mechanical strength on supporting structure to reduce the reflector positioning and the assembly errors. In this paper, we report the results of calibration of the engineering model of SXT (EM), and project the quality of the flight mirrors.

Published

2011

6. Foil X-Ray Mirrors for Astronomical Observations: Still an Evolving Technology

Author

Serlemitsos, Peter J, Soong, Yang, Okajima, Takashi, and Hahne, Devin J

Subjects

Astronomy

Abstract

Foil X-ray mirrors, introduced by the Goddard X-ray Group in the late 1970s, were envisioned as an interim and complementary approach toward increased sensitivity for small inexpensive astronomical instruments. The extreme light weight nature of these mirrors dovetailed beautifully with Japan's small payload missions, leading to several collaborative, earth orbiting observatories, designed primarily for spectroscopy, of which SUZAKU is still in earth orbit. ASTRO-H is the latest joint instrument with Japan, presently in the implementation phase. At Goddard, some 30 years after we introduced them, we are involved with four separate flight instruments utilizing foil X-ray mirrors, a good indication that this technology is here to stay. Nevertheless, an improved spatial resolution will be the most welcomed development by all. The task of preparing upwards of 1000 reflectors, then assembling them into a single mirror with arcmin resolution remains a formidable one. Many, performance limiting approximations become necessary when converting commercial aluminum sheets into 8 quadrant segments, each with approximately 200 nested conical, approximately 4Angstrom surface reflectors, which are then assembled into a single mirror. In this paper we will describe the mirror we are presently involved with, slated for the Goddard high resolution imaging X-ray spectrometer (SXS) onboard ASTRO-H. Improved spatial resolution will be an important enhancement to the science objectives from this instrument. We are accordingly pursuing and will briefly describe in this paper several design and reflector assembly modifications, aimed toward that goal.

Published

2011

7. Supermirror hard-x-ray telescope

Author

Yamashita, Koujun, Serlemitsos, Peter J., Tueller, Jack, Barthelmy, Scott D., Bartlett, Lyle M., Chan, Kai-Wing, Furuzawa, Akihiro, Gehrels, Neil, Haga, Kazutoshi, Kunieda, Hideyo, Kurczynski, Peter, Lodha, Gyanendra, Nakajo, Norio, Nakamura, Norihiko, Namba, Yoshiharu, Ogasaka, Yasushi, Okajima, Takashi, Palmer, David, Parsons, Ann, Soong, Yang, Stahl, Carl M., Takata, Harumi, Tamura, Keisuke, Tawara, Yuzuru, and Teegarden, Bonnard J.

Subjects

Mirrors -- Research, X-ray telescope -- Research, Astronomy, Physics

Abstract

The practical use of a grazing x-ray telescope is demonstrated for hard-x-ray imaging as hard as 40 keV by means of a depth-graded d-spacing multilayer, a so-called supermirror. Platinum-carbon multilayers of 26 layer pairs in three blocks with a different periodic length d of 3-5 nm were designed to enhance the reflectivity in the energy range from 24 to 36 keV at a grazing angle of 0.3 deg. The multilayers were deposited on thin-replica-foil mirrors by a magnetron dc sputtering system. The reflectivity was measured to be 25%-30% in this energy range; 20 mirror shells thus deposited were assembled into the tightly nested grazing-incidence telescope. The focused hard-x-ray image was observed with a newly developed position-sensitive CdZnTe solid-state detector. The angular resolution of this telescope was found to be 2.4 arc min in the half-power diameter.

Published

1998

8. Characterization of the Advanced Satellite for Cosmology and Astrophysics x-ray telescope: preflight calibration and ray tracing

Author

Tsusaka, Yoshiyuki, Suzuki, Hisanori, Yamashita, Koujun, Kunieda, Hideyo, Tawara, Yuzuru, Ogasaka, Yasushi, Uchibori, Yasuhiro, Honda, Hirohiko, Itoh, Masayuki, Awaki, Hisamitsu, Tsunemi, Hiroshi, Hayashida, Kiyoshi, Nomoto, Susumu, Wada, Mikio, Miyata, Emi, Serlemitsos, Peter J., Jalota, Lalit, and Soong, Yang

Subjects

X-ray telescope -- Research, Optical films -- Research, Astronomy, Physics

Abstract

The x-ray properties of multinested thin-foil mirror x-ray telescopes (XRT's) on board ASCA, the Advanced Satellite for Cosmology and Astrophysics, were fully evaluated with an x-ray pencil beam. Scanning over the telescope aperture of 35 cm in diameter with an x-ray pencil beam, we found the effective area of a set of XRT's to be 325, 200, and 113 [cm.sup.2] at energies of 1.5, 4.5, and 8.0 keV, respectively. We derive the point-spread functions (PSF's) of the XRT's by measuring the image profile at the focal plane with an x-ray CCD. The PSF is found to exhibit a sharp core concentrated within 30 arcsec and a broad wing extended to 3 arcmin in half-power diameter. We also evaluate the contribution of stray light, which is caused by the single reflection of x rays by primary or secondary mirrors and by the backside reflection of the mirrors. To obtain the characteristics of the XRT in the energy region of 0.5-10.0 keV, incorporated with the measurements at discrete energies, we develop a ray-tracing method with the telescope design parameter, the PSF, and optical constants. In particular, we obtain the optical constants around the gold-atom M shell (Au-M) absorption-edge energies by measuring the reflectivity of our mirror sample, with monochromatized x-rays in the energy range of 2.0-3.5 keV from synchrotron radiation. Taking into account the PSF's and optical constants, we find that our ray-tracing program can reproduce all these XRT performances.

Published

1995

9. The X-ray telescope on board ASCA

Author

Serlemitsos, Peter J, Jalota, Lalit, Soong, Yang, Kunieda, Hideyo, Tawara, Yuzuru, Tsusaka, Yoshiyuki, Suzuki, Hisanori, Sakima, Yasuhiro, Yamazaki, Takashi, and Yoshioka, Hidenori

Subjects

Astronomy

Abstract

The Advanced Satellite for Cosmology and Astrophysics (ASCA) instrument uses identical conical foil X-ray mirrors for its four telescopes. One of the major advantages of ASCA's telescopes is the first time ever use of X-ray imaging over a broad energy band and high throughput for conducting astronomical spectroscopy. Nested thin foil reflectors make possible a large effective area up to 10 keV, even under the tight weight restriction of the ASCA spacecraft. The expected characteristics of the ASCA mirrors are summarized based on ray tracings and pre-flight calibrations. The total effective area of four telescopes at 1 and 7 keV are approximately 1200 and 600 sq cm, respectively. The image size (half power diameter: HPD) is about 3 min. The field of view is 24 min and 16 min full width at half maximum for 1 and 7 keV, respectively. Observations of several X-ray sources from space during the performance verification phase have confirmed those performances as well as the alignment of the optical systems.

Published

1995

10. X-ray telescope onboard Astro-E. II. Ground-based x-ray characterization

Author

Shibata, Ryo, Ishida, Manabu, Kunieda, Hideyo, Endo, Takao, Honda, Hirohiko, Misaki, Kazutami, Ishida, Jun'ichi, Imamura, Kohsuke, Hidaka, Yasuhiro, Maeda, Masamichi, Tawara, Yuzuru, Ogasaka, Yasushi, Furuzawa, Akihiro, Watanabe, Manabu, Terashima, Yuichi, Yoshioka, Tsutomu, Okajima, Takashi, Yamashita, Koujun, Serlemitsos, Peter J., Soong, Yang, and Chan, Kai-Wing

Subjects

X-ray telescope -- Testing, X-ray astronomy -- Equipment and supplies, Astronomy, Physics

Abstract

X-ray characterization measurements of the x-ray telescope (XRT) onboard the Astro-E satellite were carried out at the Institute of Space and Astronautical Science (Japan) x-ray beam facility by means of a raster scan with a narrow x-ray pencil beam. The on-axis half-power diameter (HPD) was evaluated to be 1.8'-2.2', irrespective of the x-ray energy. The on-axis effective areas of the XRTs for x-ray imaging spectrometers (XISs) were approximately 440, 320, 240, and 170 [cm.sup.2] at energies of 1.49, 4.51, 8.04, and 9.44 keV, respectively. Those of the x-ray spectrometer (XRS) were larger by 5-10%. The replication method introduced for reflector production significantly improved the imaging capability of the Advanced Satellite for Cosmology and Astrophyics (ASCA) XRT, whose HPD is ~3.6'. The increase in the effective area by a factor of 1.5-2.5, depending upon the x-ray energy, compared with that of the ASCA, was brought about by mechanical scale up and longer focal lengths. The off-axis HPDs were almost the same as those obtained on the optical axis. The field of view is defined as the off-axis angle at which the effective area becomes half of the on-axis value. The diameter of the field of view was ~19' at 1.49 keV, decreasing with increasing x-ray energy, and became ~13' at 9.44 keV. The intensity of stray light and the distribution of this kind of light on the focal plane were measured at the large off-axis angles 30' and 60'. In the entire XIS field of view (25.4 mm x 25.4 mm), the intensity of the stray light caused by a pointlike x-ray source became at most 1% of the same pointlike source that was on the optical axis. OCIS codes: 340.0340, 340.7440, 340.7470, 340.7480.

Published

2001

11. X-ray telescope onboard Astro-E: optical design and fabrication of thin foil mirrors

Author

Kunieda, Hideyo, Ishida, Manabu, Endo, Takao, Hidaka, Yasuhiro, Honda, Hirohiko, Imamura, Kohsuke, Ishida, Jun'ichi, Maeda, Masamichi, Misaki, Kazutami, Shibata, Ryo, Furuzawa, Akihiro, Haga, Kazutoshi, Ogasaka, Yasushi, Okajima, Takashi, Tawara, Yuzuru, Terashima, Yuichi, Watanabe, Manabu, Yamashita, Koujun, Yoshioka, Tsutomu, Serlemitsos, Peter J., Soong, Yang, and Chan, Kai-Wing

Subjects

X-ray telescope -- Design and construction, Astronomy -- Equipment and supplies, Satellites -- Design and construction, Astronomy, Physics

Abstract

X-ray telescopes (XRT's) of nested thin foil mirrors are developed for Astro-E, the fifth Japanese x-ray astronomy satellite. Although the launch was not successful, the design concept, fabrication, and alignment procedure are summarized. The main purpose of the Astro-E XRT is to collect hard x rays up to 10 keV with high efficiency and to provide medium spatial resolution in limited weight and volume. Compared with the previous mission, Advanced Satellite for Cosmology and Astrophysics (ASCA), a slightly longer focal length of 4.5-4.75 m and a larger diameter of 40 cm yields an effective area of 1750 [cm.sup.2] at 8 keV with five telescopes. The image quality is also improved to 2-arc min half-power diameter by introduction of a replication process. Platinum is used instead of gold for the reflectors of one of the five telescopes to enhance the high-energy response. The fabrication and alignment procedure is also summarized. Several methods for improvement are suggested for the reflight Astro-E II mission and for other future missions. Preflight calibration results will be described in a forthcoming second paper, and a detailed study of images will be presented in a third paper. [C] 2001 Optical Society of America OCIS codes: 340.7440, 340.7470, 340.7480.

Published

2001

12. The X-ray observatory Suzaku

Author

Bautz, Mark, Kelley, Richard L., Petre, Robert, Figueroa, Enectali, Soong, Yang, Gendreau, Keith, Griffiths, Richard E., Harrus, Ilana, White, Nicholas E., Hasinger, Gunther, Henry, Patrick J., Holt, Stephen S., Hornschemeier, Ann, Hughes, John P., Hwang, Una, Smith, Randall, Kahn, Steven M., Kilbourne, Caroline, Kissel, Steve, Szymkowiak, Andrew E., Madejski, Greg M., Markowitz, Alex, Matsumoto, Chiho, Matsumoto, Hironori, Mccammon, Dan, Moseley, Harvey, Mushotzky, Richard, Nousek, John A., Chan, Kai-Wing, Ozawa, Hideki, Parmer, Arvind N., Pence, William D., Turner, Martin J. L., Angelini, Lorella, Arnaud, Keith, Boyce, Kevin, Brown, Gregory V., Porter, F. Scott, Cottam, Jean, Reeves, James N., Ricker, George R., Doty, John, Sanders, Wilton T., Fabian, Andrew C., Serlemitsos, Peter, Tashiro, Makoto, Tawara, Yuzuru, Terada, Yukikatsu, Terashima, Yuichi, Tomida, Hiroshi, Torii, Ken'ichi, Tsuboi, Yohko, Tsujimoto, Masahiro, Tsuru, Takeshi Go, Ueda, Yoshihiro, Ueno, Shiro, Ueno, Masaru, Uno, Shin'ichiro, Urata, Yuji, Watanabe, Shin, Yamamoto, Norimasa, Ishida, Manabu, Yamaoka, Kazutaka, Yamasaki, Noriko Y., Ishisaki, Yoshitaka, Isobe, Naoki, Itoh, Masayuki, Iyomoto, Naoko, Kamae, Tuneyoshi, Katagiri, Hideaki, Kataoka, Jun, Mitsuda, Kazuhisa, Inoue, Hajime, Katayama, Haruyoshi, Koyama, Katsuji, Kunieda, Hideyo, Makishima, Kazuo, Ogawara, Yoshiaki, Takahashi, Tadayuki, Tsunemi, Hiroshi, Anabuki, Naohisa, Kawai, Nobuyuki, Awaki, Hisamitsu, Bamba, Aya, Dotani, Tadayasu, Ebisawa, Ken, Ezoe, Yuichiro, Fujimoto, Ryuichi, Fukazawa, Yasushi, Furusho, Tae, Furuzawa, Akihiro, Kinugasa, Kenzo, Haba, Yoshito, Hamaguchi, Kenji, Hatsukade, Isamu, Hayashida, Kiyoshi, Hiraga, Junko S., Kitamoto, Shunji, Kohama, Mitsuhiro, Kohmura, Takayoshi, Kokubun, Motohide, Kotani, Taro, Kotoku, Jun'ichi, Kubota, Aya, Maeda, Yoshitomo, Makino, Fumiyoshi, Matsuoka, Masaru, Matsushita, Kyoko, Mihara, Tatehiko, Misaki, Kazutami, Miyata, Emi, Mizuno, Tsunefumi, Mori, Koji, Mori, Hideyuki, Morii, Mikio, Mukai, Koji, Murakami, Hiroshi, Murakami, Toshio, Nagase, Fumiaki, Namiki, Masaaki, Negoro, Hitoshi, Nakazawa, Kazuhiro, Okajima, Takashi, Ogasaka, Yasushi, Ohashi, Takaya, Oshima, Tai, Ota, Naomi, Ozaki, Masanobu, Sakurai, Ikuya, Senda, Atsushi, Shibata, Ryo, Suzuki, Motoko, Takahashi, Hiromitsu, Tamagawa, Toru, Tamura, Keisuke, Tamura, Takayuki, and Tanaka, Yasuo

Subjects

Physics, Scientific instrument, instrumentation, Spacecraft, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, Astronomy and Astrophysics, Astrophysics, X-rays: general, Space and Planetary Science, Observatory, space vehicles, space vehicles: instruments, business

Abstract

著者人数: 143名, Accepted: 2006-09-27, 資料番号: SA1000631000