HAMAMATSU CORPORATION
1
(26) Lytle, F. W.; Sayers, D. E.; Stern, E. A. Phys. Rev. Β 1975,11, 4825-35. (27) Stern, Ε. Α.; Sayers, D. E.; Lytle, F. W. Phys. Rev. Β 1975,11, 4836-46. (28) Gurman, S. J.; Pendry, J. B. Solid State Commun. 1976,20, 287-90. (29) Eisenberger, P.; Lengler, B. Phys. Rev. 5 1980,22,3551-62. (30) Citrin, P. H.; Eisenberger, P.; Kincaid, Β. Μ. Phys. Rev. Lett. 1976,36,1347-49. (31) Lee, P. Α.; Teo, B. K.; Simons, A. L. J. Am. Chem. Soc. 1977, 99, 3856-59. (32) Meitzer, G.; Via, G. H.; Lytle, F. W.; Sinfelt, J. H. J. Chem. Phys. 1983, 78, 882-89. (33) Sinfelt, J. H.; Via G. H.; Lytle, F. W.; Greegor, R. B. J. Chem. Phys. 1981, 75, 5527-37. (34) Teo, B. K.; Lee, P. Α.; Simons, A. L.; Eisenberger, P.; Kincaid, B. M. J. Am. Chem. Soc. 1977,99, 3856-59. (35) McKale, A. G.; Veal, B. W.; Paulikas, A. P.; Chan, S-K.; Knapp, G. S. J. Am. Chem. Soc. 1988,110, 3763-68. (36) Stern, Ε. Α.; Bunker, Β. Α.; Heald, S. M. Phys. Rev. Β 1980,21, 5521-39. (37) Seah, M. P.; Dench, W. A. Surf. Inter- face Anal. 1979,7,2-11. (38) Greegor, R. B.; Lytle, F. W. Phys. Rev. Β 1979 20 4902-7. (39) Boh'mer, W.; Rabe, P. J. Phys. C: 1979, 12, 2465-74. (40) Eisenberger, P.; Brown, S. Solid State Commun. 1979,29,481-84. (41) Srivastava, U. C; Nigam, H. L. Coord. Chem. Rev. 1973,9, 275-310. (42) Shulman, R. G.; Yafet, Y.; Eisenberger, P.; Blumberg, W. E. Proc. Nat. Acad. Sci. 1976, 73,1384-88. (43) Kutzler, F. W.; Natoli, C. R.; Misemer, D. K.; Doniach, S.; Hodgson, K. O. J. Chem. Phys. 1980, 73, 3274-88. (44) Bianconi, A. In EXAFS and Near Edge Structure; Bianconi, Α.; Inococcia, L.; Stipcich, S., Eds.; Springer-Verlag: Berlin, 1983; pp. 118-29. (45) Brigham, E. O. The Fast Fourier Transform; Prentice Hall: New York, 1974. (46) Martens, G.; Rabe, P.; Schwentner, N.; Werner, A. Phys. Rev. Β 1978, 17, 1481- 88 (47) Bunker, Β. Α.; Stern, E. A. Phys. Rev. Β 1983,27,1017-27. (48) Stern, Ε. Α.; Bunker, B.; Heald, S. M. In EXAFS Spectroscopy, Techniques and Applications; Teo, B. K.; Joy, D. C., Eds.; Plenum Press: New York, 1981; pp. 59-79 (49) Stern, Ε. Α.; Kim, K. Phys. Rev. Β 1981,23, 3781-87. (50) Lu, K-Q.; Stern, E. A. Nucl. Instrum. Methods 1983,212, 475-78. (51) Van't Blik, H.F.J.; Van Zon, J.B.A.D.; Koningsberger, D. C.; Prins, R. J. Mol. Catal. 1984,25, 379-96. (52) Van't Blik, H.F.J.; Van Zon, J.B.A.D.; Hiuzinga, J. C.; Koningsberger, D. C.; Prins, R. J. Phys. Chem. 1983, 87, 2264- 67. (53) Cramer, S. P.; Hille, R. J. Am. Chem. Soc. 1985,107, 8164-69. (54) Hille, R.; Stewart, R. C. J. Biol. Chem. 1984,259,1570-76. (55) Wong, J.; Lytle, F. W. J. Appl. Phys. 1980,52,280-82. David M. Hercules (left) received his Ph.D. in analytical chemistry from Massa- chusetts Institute of Technology in 1957. After holding faculty positions at Le- high University, M.I.T., and the University of Georgia, he joined the University of Pittsburgh as professor in 1976. His research interests are in the analytical chemistry of surfaces and solid-state mass spectrometry and include catalysis, polymers, quantitative methodology, surface oxidation and modification, and trace analysis. He is heavily involved in laser mass spectrometry of nonvolatile solids and the development of the scanning laser microprobe. Hercules received the Lester Strock Medal (1981), the ACS Award in Analytical Chemistry (1986), and the Benedetti-Pichler Award (1987). He is currently a fellow of the Alexander von Humboldt Foundation. Andrew Proctor (second from left) is a research assistant professor with the Surface Science Center in the chemistry department at the University of Pitts- burgh. He received a B.A. degree (1976) from Cambridge University and an M.Sc. degree (1976) in electrochemistry and a Ph.D. (1981) in surface analysis from the University of Newcastle upon Tyne (U.K.) under the direction of Peter M. A. Sherwood. His research interest is the development of software for analysis of spectroscopic data. Martin J. Fay (third from left) is a graduate student at the University of Pittsburgh, where he is studying EXAFS spectroscopy and methods of numerical analysis. He received B.A. (1983) and M.S. (1985) degrees from Virginia Polytech- nic Institute and State University. Douglas P. Hoffmann (right) received a B.A. degree in chemistry (1983) from Hiram College (Hiram, OH) and is currently completing his Ph.D. work in analyti- cal chemistry at the University of Pittsburgh. His research interests include surface and bulk materials characterization and the development of instrumenta- tion and methods of data analysis. Hoffmann is the recipient of a fellowship from BP America. Hamamatsu Hollow Cathode Lamps are now available from major lab suppliers. Hamamatsu single and multi- element Hollow Cathode Lamps offer superior stability, spectral purity and output intensity, even for such elements as arsenic and selenium. They are compatible with most commercial spectro- photometers, including Beckman, Zeiss and Perkin-Elmer. And best of all, they're available from your local lab supplier. For Application information, Call 1-800-524-0504 1-201-231-0960 in New Jersey HAMAMATSU HAMAMATSU CORPORATION 360 FOOTHILL ROAD P. O. BOX 6910 BRIDGEWATER, NJ 08807 PHONE: 201/231-0960 International Offices in Major Countries of Europe and Asia. c Hamamatsu Photonics. 1986 CIRCLE 67 ON READER SERVICE CARD ANALYTICAL CHEMISTRY, VOL. 60, NO. 21, NOVEMBER 1, 1988 · 1243 A
Transcript of HAMAMATSU CORPORATION
(26) Lytle, F. W.; Sayers, D. E.; Stern, E. A. Phys. Rev. Β 1975,11, 4825-35.
(27) Stern, Ε. Α.; Sayers, D. E.; Lytle, F. W. Phys. Rev. Β 1975,11, 4836-46.
(28) Gurman, S. J.; Pendry, J. B. Solid State Commun. 1976,20, 287-90.
(29) Eisenberger, P.; Lengler, B. Phys. Rev. 5 1980,22,3551-62.
(30) Citrin, P. H.; Eisenberger, P.; Kincaid, Β. Μ. Phys. Rev. Lett. 1976,36,1347-49.
(31) Lee, P. Α.; Teo, B. K.; Simons, A. L. J. Am. Chem. Soc. 1977, 99, 3856-59.
(32) Meitzer, G.; Via, G. H.; Lytle, F. W.; Sinfelt, J. H. J. Chem. Phys. 1983, 78, 882-89.
(33) Sinfelt, J. H.; Via G. H.; Lytle, F. W.; Greegor, R. B. J. Chem. Phys. 1981, 75, 5527-37.
(34) Teo, B. K.; Lee, P. Α.; Simons, A. L.; Eisenberger, P.; Kincaid, B. M. J. Am. Chem. Soc. 1977,99, 3856-59.
(35) McKale, A. G.; Veal, B. W.; Paulikas, A. P.; Chan, S-K.; Knapp, G. S. J. Am. Chem. Soc. 1988,110, 3763-68.
(36) Stern, Ε. Α.; Bunker, Β. Α.; Heald, S. M. Phys. Rev. Β 1980,21, 5521-39.
(37) Seah, M. P.; Dench, W. A. Surf. Interface Anal. 1979,7,2-11.
(38) Greegor, R. B.; Lytle, F. W. Phys. Rev. Β 1979 20 4902-7.
(39) Boh'mer, W.; Rabe, P. J. Phys. C: 1979, 12, 2465-74.
(40) Eisenberger, P.; Brown, S. Solid State Commun. 1979,29,481-84.
(41) Srivastava, U. C; Nigam, H. L. Coord. Chem. Rev. 1973,9, 275-310.
(42) Shulman, R. G.; Yafet, Y.; Eisenberger, P.; Blumberg, W. E. Proc. Nat. Acad. Sci.
1976, 73,1384-88. (43) Kutzler, F. W.; Natoli, C. R.; Misemer,
D. K.; Doniach, S.; Hodgson, K. O. J. Chem. Phys. 1980, 73, 3274-88.
(44) Bianconi, A. In EXAFS and Near Edge Structure; Bianconi, Α.; Inococcia, L.; Stipcich, S., Eds.; Springer-Verlag: Berlin, 1983; pp. 118-29.
(45) Brigham, E. O. The Fast Fourier Transform; Prentice Hall: New York, 1974.
(46) Martens, G.; Rabe, P.; Schwentner, N.; Werner, A. Phys. Rev. Β 1978, 17, 1481-88
(47) Bunker, Β. Α.; Stern, E. A. Phys. Rev. Β 1983,27,1017-27.
(48) Stern, Ε. Α.; Bunker, B.; Heald, S. M. In EXAFS Spectroscopy, Techniques and Applications; Teo, B. K.; Joy, D. C., Eds.; Plenum Press: New York, 1981; pp. 59-79
(49) Stern, Ε. Α.; Kim, K. Phys. Rev. Β 1981,23, 3781-87.
(50) Lu, K-Q.; Stern, E. A. Nucl. Instrum. Methods 1983,212, 475-78.
(51) Van't Blik, H.F.J.; Van Zon, J.B.A.D.; Koningsberger, D. C.; Prins, R. J. Mol. Catal. 1984,25, 379-96.
(52) Van't Blik, H.F.J.; Van Zon, J.B.A.D.; Hiuzinga, J. C.; Koningsberger, D. C.; Prins, R. J. Phys. Chem. 1983, 87, 2264-67.
(53) Cramer, S. P.; Hille, R. J. Am. Chem. Soc. 1985,107, 8164-69.
(54) Hille, R.; Stewart, R. C. J. Biol. Chem. 1984,259,1570-76.
(55) Wong, J.; Lytle, F. W. J. Appl. Phys. 1980,52,280-82.
David M. Hercules (left) received his Ph.D. in analytical chemistry from Massachusetts Institute of Technology in 1957. After holding faculty positions at Lehigh University, M.I.T., and the University of Georgia, he joined the University of Pittsburgh as professor in 1976. His research interests are in the analytical chemistry of surfaces and solid-state mass spectrometry and include catalysis, polymers, quantitative methodology, surface oxidation and modification, and trace analysis. He is heavily involved in laser mass spectrometry of nonvolatile solids and the development of the scanning laser microprobe. Hercules received the Lester Strock Medal (1981), the ACS Award in Analytical Chemistry (1986), and the Benedetti-Pichler Award (1987). He is currently a fellow of the Alexander von Humboldt Foundation.
Andrew Proctor (second from left) is a research assistant professor with the Surface Science Center in the chemistry department at the University of Pittsburgh. He received a B.A. degree (1976) from Cambridge University and an M.Sc. degree (1976) in electrochemistry and a Ph.D. (1981) in surface analysis from the University of Newcastle upon Tyne (U.K.) under the direction of Peter M. A. Sherwood. His research interest is the development of software for analysis of spectroscopic data.
Martin J. Fay (third from left) is a graduate student at the University of Pittsburgh, where he is studying EXAFS spectroscopy and methods of numerical analysis. He received B.A. (1983) and M.S. (1985) degrees from Virginia Polytechnic Institute and State University.
Douglas P. Hoffmann (right) received a B.A. degree in chemistry (1983) from Hiram College (Hiram, OH) and is currently completing his Ph.D. work in analytical chemistry at the University of Pittsburgh. His research interests include surface and bulk materials characterization and the development of instrumentation and methods of data analysis. Hoffmann is the recipient of a fellowship from BP America.
Hamamatsu Hollow Cathode Lamps are now available from major lab suppliers. Hamamatsu single and multielement Hollow Cathode Lamps offer superior stability, spectral purity and output intensity, even for such elements as arsenic and selenium. They are compatible with most commercial spectrophotometers, including Beckman, Zeiss and Perkin-Elmer. And best of all, they're available from your local lab supplier.
For Application information, Call 1-800-524-0504 1-201-231-0960 in New Jersey
HAMAMATSU HAMAMATSU CORPORATION 360 FOOTHILL ROAD P. O. BOX 6910 BRIDGEWATER, NJ 08807 PHONE: 201/231-0960 International Offices in Major Countries of Europe and Asia.
c Hamamatsu Photonics. 1986
CIRCLE 67 ON READER SERVICE CARD
ANALYTICAL CHEMISTRY, VOL. 60, NO. 21, NOVEMBER 1, 1988 · 1243 A
![CMOS linear image sensor - Hamamatsu Photonics3 CMOS linear image sensor S13488 Electrical and optical characteristics [Ta=25 °C, Vdd=5 V, V(CLK)=V(ST)=5 V, f(CLK)=10 MHz] Parameter](https://static.fdocument.org/doc/165x107/60abeb8e2a5f391b163138b2/cmos-linear-image-sensor-hamamatsu-photonics-3-cmos-linear-image-sensor-s13488.jpg)
![Overview of FDSS application - Hamamatsu Photonics · 2016. 9. 6. · Corning SUMITOMO BAKELITE Greiner Kuraray InSphero Coster 3D ®PrimeSurface ... 10* SD [0% sample] 31 NanoBRET™](https://static.fdocument.org/doc/165x107/608ffdd9b0795e36424c1386/overview-of-fdss-application-hamamatsu-photonics-2016-9-6-corning-sumitomo.jpg)
