Your search keyword '"Thibeault, B. J."' showing total 33 results

1. Fabricating distributed feedback laser gratings with bismuth and gold focused ion beams.

Author

Salmond, B., John, D. D., Mitchell, W. J., Thibeault, B. J., Richter, T., Nadzeyka, A., Mazarov, P., Meyer, F., Fridmann, J., Yu, Y., Wale, M., Meredith, W., Smowton, P. M., Read, D., and Shutts, S.

Subjects

ELECTRON beam lithography, FOCUSED ion beams, BRAGG gratings, PLASMA etching, SEMICONDUCTOR lasers, DISTRIBUTED feedback lasers

Abstract

Fabricating first order gratings for laterally coupled distributed feedback (LC-DFB) lasers can be challenging due to aspect ratio dependent etching. Developments in focused ion beam (FIB) processing and source technology introduce the potential to mill grating structures directly into a ridge waveguide (RWG) laser structure without the requirement for electron beam lithography and inductively coupled plasma etching. In this work, we investigate the suitability of using bismuth and gold FIBs to mill Bragg gratings for DFB laser diodes directly into as well as adjacent to InP RWG laser structures. We explore the milling strategy on the profile of the fabricated grating structures. We observe that the single pixel line scanning routine is favorable when milling directly onto an RWG and using a concentric scanning method is better when milling the grating structures adjacent to the RWG. We conclude that milling off-ridge is more promising using this technique, as gratings with sidewall angles of 18 ° have been milled to a depth of over 350 nm. Based on modeling, a grating milled adjacent to the ridge with a dose of 60 000 μ C / cm 2 would provide a coupling strength of 73 cm − 1 . Such values would be suitable for DFB laser devices with cavity lengths as low as 200 μ m. [ABSTRACT FROM AUTHOR]

Published

2024

2. High Dielectric Constant ZrO2 Films by Atomic Layer Deposition Technique on Germanium Substrates

Author

Mahajan, A. M., Khairnar, Anil G., and Thibeault, B. J.

Published

2016

3. In-Situ Etching and Molecular Beam Epitaxial Regrowth for Templated Sidewall Quantum Wires

Author

Strand, T. A., Thibeault, B. J., Mui, D. S. L., Naone, R. L., Coldren, L. A., Petroff, P. M., Hu, E. L., Eberl, Karl, editor, Petroff, Pierre M., editor, and Demeester, Piet, editor

Published

1995

4. Electrical properties of MOS capacitors formed by PEALD grown Al2O3 on silicon

Author

Mahajan, A. M., Khairnar, A. G., and Thibeault, B. J.

Published

2014

5. Design, fabrication and characterization of high-speed asymmetric Fabry-Perot modulators for optical interconnect applications

Author

Barron, C. C., Mahon, C. J., Thibeault, B. J., and Coldren, L. A.

Published

1993

6. Evaluating the effects of optical and carrier losses in etched-post vertical cavity lasers.

Author

Thibeault, B. J., Strand, T. A., Wipiejewski, T., Peters, M. G., Young, D. B., Corzine, S. W., Coldren, L. A., and Scott, J. W.

Subjects

*SCATTERING (Physics), *OPTICAL losses, *LASERS

Abstract

Focuses on a study which demonstrated the combined effects of optical scattering loss and surface recombination on the performance and scalability of etched-post vertical cavity lasers (VCL). Technique of optical loss extraction; Measurement of optical loss in etched-post VCL; Effect of optical loss on threshold current.

Published

1995

7. High Dielectric Constant ZrO2 Films by Atomic Layer Deposition Technique on Germanium Substrates

Author

Mahajan, A. M., primary, Khairnar, Anil G., additional, and Thibeault, B. J., additional

Published

2015

8. Vertical-Cavity Surface-Emitting Lasers for Free-Space Interconnects.

Author

Coldren, L. A. and Thibeault, B. J.

Published

2017

9. Record Ion (0.50 mA/µm at VDD = 0.5 V and Ioff = 100 nA/µm) 25 nm-gate-length ZrO2/InAs/InAlAs MOSFETs

Author

Lee, S., primary, Chobpattana, V., additional, Huang, C.-Y., additional, Thibeault, B. J., additional, Mitchell, W., additional, Stemmer, S., additional, Gossard, A. C., additional, and Rodwell, M. J. W., additional

Published

2014

10. Performance impact of post-regrowth channel etching on InGaAs MOSFETs having MOCVD source-drain regrowth

Author

Carter, Andrew D., primary, Lee, S., additional, Elias, D. C., additional, Huang, C.-Y., additional, Law, J. J. M., additional, Mitchell, W. J., additional, Thibeault, B. J., additional, Chobpattana, V., additional, Stemmer, S., additional, Gossard, A. C., additional, and Rodwell, M. J. W., additional

Published

2013

11. Formation of sub-10 nm width InGaAs finFETs of 200 nm height by atomic layer epitaxy

Author

Cohen-Elias, D., primary, Law, J. J. M., additional, Chiang, H. W., additional, Sivananthan, A., additional, Zhang, C., additional, Thibeault, B. J., additional, Mitchell, W. J., additional, Lee, S., additional, Carter, A. D., additional, Huang, C.-Y., additional, Chobpattana, V., additional, Stemmer, S., additional, Keller, S., additional, and Rodwell, M. J. W., additional

Published

2013

12. THz Indium Phosphide Bipolar Transistor Technology

Author

Rodwell, M. J. W., primary, Rode, J., additional, Chiang, H. W., additional, Choudhary, P., additional, Reed, T., additional, Bloch, E., additional, Danesgar, S., additional, Park, H.-C., additional, Gossard, A. C., additional, Thibeault, B. J., additional, Mitchell, W., additional, Urteaga, M., additional, Griffith, Z., additional, Hacker, J., additional, Seo, M., additional, and Brar, B., additional

Published

2012

13. 60 nm gate length Al2O3 / In0.53Ga0.47As gate-first MOSFETs using InAs raised source-drain regrowth

Author

Carter, Andrew D., primary, Law, J. J. M., additional, Lobisser, E., additional, Burek, G. J., additional, Mitchell, W. J., additional, Thibeault, B. J., additional, Gossard, A. C., additional, and Rodwell, M. J. W., additional

Published

2011

14. III-V MOSFETs: Scaling laws, scaling limits, fabrication processes

Author

Rodwell, M. J. W., primary, Shin, B., additional, Lee, Yong-ju, additional, Steiger, S., additional, Lee, S., additional, Ryu, H., additional, Tan, Y., additional, Hegde, G., additional, Wang, L., additional, Chagarov, E., additional, Gossard, A. C., additional, Singisetti, U., additional, Frensley, W., additional, Kummel, A., additional, Palmstrom, C., additional, McIntyre, Paul C, additional, Boykin, T., additional, Klimek, G., additional, Asbeck, P., additional, Wistey, M., additional, Burek, G. J., additional, Carter, A., additional, Baraskar, A., additional, Law, J., additional, Thibeault, B. J., additional, and Kim, Eun Ji, additional

Published

2010

15. Inductively Coupled Plasma Etching of Bulk Titanium for MEMS Applications

Author

Parker, E. R., primary, Thibeault, B. J., additional, Aimi, M. F., additional, Rao, M. P., additional, and MacDonald, N. C., additional

Published

2005

16. Reduced lateral carrier diffusion for improved miniature semiconductor lasers

Author

Strand, T. A., primary, Thibeault, B. J., additional, and Coldren, L. A., additional

Published

1997

17. Estimation of scattering losses in dielectrically apertured vertical cavity lasers

Author

Hegblom, E. R., primary, Babic, D. I., additional, Thibeault, B. J., additional, and Coldren, L. A., additional

Published

1996

18. Dielectric apertures as intracavity lenses in vertical‐cavity lasers

Author

Coldren, L. A., primary, Thibeault, B. J., additional, Hegblom, E. R., additional, Thompson, G. B., additional, and Scott, J. W., additional

Published

1996

19. Cryogenic Vertical-Cavity Laser for Low Power Free-Space Optical Interconnects

Author

Akulova, Y. A., primary, Thibeault, B. J., additional, Ko, J. C., additional, Goobar, E., additional, and Coldren, L. A., additional

Published

1996

20. Low regrowth–interface recombination rates in InGaAs–GaAs buried ridge lasers fabricated by in situ processing

Author

Strand, T. A., primary, Thibeault, B. J., additional, Mui, D. S. L., additional, Coldren, L. A., additional, Petroff, P. M., additional, and Hu, E. L., additional

Published

1995

21. Limitations of Surface Related Optical and Carrier Losses in Microcavity Lasers

Author

Thibeault, B. J., primary, Strand, T. A., additional, Peters, M. G., additional, Wipiejewski, T., additional, Young, D. B., additional, Scott, J. W., additional, and Coldren, L. A., additional

Published

1995

22. High Power Highly Efficient Vertical-Cavity Surface-Emitting Laser Diodes with a Au-Plated Heat Spreading Layer

Author

Wipiejewski, T., primary, Peters, M. G., additional, Thibeault, B. J., additional, Young, D. B., additional, and Coldren, L. A., additional

Published

1995

23. Growth of beryllium doped AlxGa1−xAs/GaAs mirrors for vertical-cavity surface-emitting lasers

Author

Peters, M. G., primary, Thibeault, B. J., additional, Young, D. B., additional, Gossard, A. C., additional, and Coldren, L. A., additional

Published

1994

24. High modulation efficiency of intracavity contacted vertical cavity lasers

Author

Scott, J. W., primary, Thibeault, B. J., additional, Mahon, C. J., additional, Coldren, L. A., additional, and Peters, F. H., additional

Published

1994

25. Band‐gap engineered digital alloy interfaces for lower resistance vertical‐cavity surface‐emitting lasers

Author

Peters, M. G., primary, Thibeault, B. J., additional, Young, D. B., additional, Scott, J. W., additional, Peters, F. H., additional, Gossard, A. C., additional, and Coldren, L. A., additional

Published

1993

26. High-power vertical-cavity surface-emitting lasers efficiently coupled to optical fibers

Author

Peters, M. C., primary, Majewski, M. L., additional, Peters, F. H., additional, Young, D. B., additional, Scott, J. W., additional, Thibeault, B. J., additional, and Coldren, L. A., additional

Published

1993

27. High-Contrast Modulation of Asymmetric Fabry-Perot Modulators at 20 GHz

Author

Barron, C. C., primary, Thibeault, B. J., additional, Mahon, C. J., additional, and Coldren, L. A., additional

Published

1993

28. Growth of beryllium doped AlxGa1-xAs/GaAs mirrors for vertical-cavity surface-emitting lasers.

Author

Peters, M. G., Thibeault, B. J., Young, D. B., Gossard, A. C., and Coldren, L. A.

Published

1994

29. Characteristics of in situ Cl2 etched/regrown GaAs/GaAs interfaces.

Author

Mui, D. S. L., Strand, T. A., Thibeault, B. J., Coldren, L. A., Petroff, P. M., and Hu, E. L.

Published

1993

30. Long-wavelength vertical-cavity surface-emitting laser diodes

Author

Babic, D. I., Jayaraman, V., Margalit, N. M., Streubel, K., Heimbuch, M. E., Richard Mirin, Thibeault, B. J., Bowers, J. E., Hu, E. L., and Denbaars, S.

Subjects

VCSEL, Optics, Electronics

Abstract

Long-wavelength (1300/1550 nm) vertical-cavity surface-emitting lasers (VCSELs) have been much more difficult to realize than VCSELs at shorter wavelengths such as 850/980 nm. The primary reason for this has been the low refractive index difference and reflectivity associated with lattice-matched InP/InGaAsP mirrors. A solution to this problem is to “wafer-fuse” high-reflectivity GaAs/AlGaAs mirrors to InP/InGaAsP active regions. This process has led to the first room-temperature continuous-wave (CW) 1.54 μm VCSELs. In this paper, we discuss two device geometries which employ wafer-fused mirrors, both of which lead to CW operation. We also discuss fabrication of WDM arrays using long-wavelength VCSELs.

31. GaN-based FETs for microwave power amplification

Author

Yi-Feng, W. U., Keller, B. P., Keller, S., Jane, J. X. U., Thibeault, B. J., steven Denbaars, and Mishra, U. K.

32. Record extrinsic transconductance (2.45 mS/µm at VDS = 0.5 V) InAs/In0.53Ga0.47As channel MOSFETs using MOCVD source-drain regrowth.

Author

Lee, S., Huang, C.-Y., Carter, A. D., Elias, D. C., Law, J. J. M., Chobpattana, V., Kramer, S., Thibeault, B. J., Mitchell, W., Stemmer, S., Gossard, A. C., and Rodwell, M. J. W.

Published

2013

33. Parallel free-space optical interconnect based on arrays of vertical-cavity lasers and detectors with monolithic microlenses.

Author

Strzelecka EM, Louderback DA, Thibeault BJ, Thompson GB, Bertilsson K, and Coldren LA

Abstract

We investigate the use of low-threshold 980-nm vertical-cavity surface-emitting lasers for free-space optical interconnects. The vertical-cavity surface-emitting lasers and backilluminated detectors are monolithically integrated with microlenses on the back sides of the growth substrates to eliminate the necessity of external optics. With a channel pitch of 250 mum, an interconnect length between boards of the order of 5 to 10 mm with a ?50-mum lateral alignment tolerance can be achieved without external relay optics. The complete link is modeled to predict the system's efficiency and maximum bit rate. Data transmission at 500 Mbits/s per channel is demonstrated. The data rate was limited by parasitics, not the inherent bandwidth of the laser diodes.

Published

1998