Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-25T15:51:29.675Z Has data issue: false hasContentIssue false
  • English
  • Français

Progress on 850 nm Flip Chip Bondable VCSEL for Optical Interconnects

Published online by Cambridge University Press:  10 February 2011

J. E. Cunningham ,
W. Y. Jan ,
K. W. Goossen ,
A. Krishnamoorthy ,
J. A. Walker ,
B. Tseng ,
G. Giaritta ,
J. Lothian ,
R. Kropf  and
I. Brenner
...Show all authors
J. E. Cunningham
Affiliation:
Bell Laboratories Lucent Technology, Holmdel, NJ.
W. Y. Jan
Affiliation:
Bell Laboratories Lucent Technology, Holmdel, NJ.
K. W. Goossen
Affiliation:
Bell Laboratories Lucent Technology, Holmdel, NJ.
A. Krishnamoorthy
Affiliation:
Bell Laboratories Lucent Technology, Holmdel, NJ.
J. A. Walker
Affiliation:
Bell Laboratories Lucent Technology, Holmdel, NJ.
B. Tseng
Affiliation:
Bell Laboratories Lucent Technology, Murray Hill, NJ.
G. Giaritta
Affiliation:
Bell Laboratories Lucent Technology, Murray Hill, NJ.
J. Lothian
Affiliation:
Bell Laboratories Lucent Technology, Murray Hill, NJ.
R. Kropf
Affiliation:
Bell Laboratories Lucent Technology, Murray Hill, NJ.
I. Brenner
Affiliation:
Bell Laboratories Lucent Technology, Murray Hill, NJ.
P. Sciortino
Affiliation:
Bell Laboratories Lucent Technology, Murray Hill, NJ.
G. Chu
Affiliation:
Bell Laboratories Lucent Technology, Murray Hill, NJ.
R. Leibenguth
Affiliation:
Bell Laboratories Lucent Technology, Murray Hill, NJ.
Get access

Abstract

We report here efforts to advance 850 nm VCSELs designed specifically for integration to Si- CMOS. Our VCSEL design is based on an oxidized current aperture and oxidized top mirror with the intent that the device operate as a bottom emitter after integration. Our design also employs intercavity contacts and the first non-alloyed buried contact have been realized. The devices produce resonantly enhanced light emission with record output of 70 μW/st.rad.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 486: Symposium H – Materials & Devices for Silicon Based Optoelectronics , 1997 , 79
Copyright
Copyright © Materials Research Society 1998

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Krishnamoorthy, A., and Miller, D.A.B., Scaling Optoelectroni circuits into the 21 Century: a Technology Roadmap, IEEE J. Select. Topics in Quantum Electronics 2(1),5576 (1996).Google Scholar
2. Goossen, K. W., Cunningham, J. E., and Jan, W. Y., GaAs 850 nm modulators solder-bonded to Si, IEEE Photo. Techno. Letts., 5, 13921395(1993).Google Scholar
3. Lentine, A.L., Goossen, K. W., Walker, J., Chirovsky, L., D'Assaro, A., Hui, S., Tseng, B., Bacon, D., Leibenguth, R., Koossives, R., Dahringer, D., Cunningham, J., Jan, W., Woodward, T., Miller, D., High Speed Optoelectronic VLSI switching chip with > 4000 Optical I/O based on flip chip bonding modulators and detectors to CMOS, IEEE J. Select. Topics in Quantum Electronics 2(l),7784 (1996).+4000+Optical+I/O+based+on+flip+chip+bonding+modulators+and+detectors+to+CMOS,+IEEE+J.+Select.+Topics+in+Quantum+Electronics+2(l),77–84+(1996).>Google Scholar
4. Kiamilev, F. E., Rozier, R. G., Krishnamoorthy, A., Smart Pixel Layout and application to photonic page buffer, IEEE I. J. of OE 2 (3), 199 (1997).Google Scholar
5. Rolston, D., Plant, D., Hinton, S., Hsiao, H., Khrishnamoorthy, A., Goossen, K., Walker, J., Tseng, B., Hui, S., Cunningham, J., Jan, W., Hybrid SEED smart pixel array for a four stage optical back plane, IEEE J. Select. Topics in Quantum Electronics 2(1), 97105, (1996).Google Scholar
6. Lear, K.L., Choquette, K. D., Schneider, R.P., Kilcoynr, S. P., and Rodgers, T.J., Electr. Letts. 31, 886 (1995).Google Scholar
7. MacDougal, M. H., Dapkus, P. D., Zian, M., amd Yang, G. M., IEEE Photon. Techno. Letts. 7, 229,(1995).Google Scholar
8. Hayes, E. M., Jurrat, R., Pu, R., Synder, R. D., Stanko, S. A., Wilmsen, C. W., Choquette, K. D., Geib, K. M., and Huo, H., IEEE J. Select. Topics in Quantum Electronics 2(3), 228, (1996).Google Scholar
9. Morgan, R., Liu, Y., Cox, J., Skogman, R., Lehman, J., Shang, A., Johnson, K., Werner, T., Brenner, M., LEOS, 1, p. 281,(1997), San Francisco.Google Scholar
10. Schubert, E.F., Hunt, N. E., Microvich, M., Malik, R. J., Sivco, D., Cho, A.Y., Zydick, G., Science, 265, 943 (1994).Google Scholar