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Low Thermal Budget Processing for Sequential 3-D IC Fabrication

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Bipin Rajendran; Rohit S. Shenoy; Daniel J. Witte; Nehal S. Chokshi; Robert L. DeLeon; Gary S. Tompa
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Abstract:

Laser annealing can be used for electrical activation of dopants without excessively heating the material deeper within the work piece. The authors demonstrate that laser...Show More

Metadata

Abstract:

Laser annealing can be used for electrical activation of dopants without excessively heating the material deeper within the work piece. The authors demonstrate that laser annealing could be used for activating the dopants in the upper levels of an exemplary 3-D integrated circuit structure without affecting the operation of the devices below. We then use a 450 degC low-temperature oxide deposition process for forming the gate oxide and laser annealing for activating the dopants at the source/drain and gate regions to fabricate CMOS transistors. This process can be used to fabricate the transistors on the upper levels of a general 3-D IC structure without affecting the quality of the devices below
Published in: IEEE Transactions on Electron Devices ( Volume: 54, Issue: 4, April 2007)
Page(s): 707 - 714
Date of Publication: 02 April 2007

ISSN Information:

DOI: 10.1109/TED.2007.891300
Author image of Bipin Rajendran
Department of Electrical Engineering, Stanford University, Stanford, CA, USA
Yorktown Heights, IBM T. J. Watson Research Center, NY, USA
Bipin Rajendran received the B.Tech. (honors) degree in instrumentation engineering from Indian Institute of Technology (IIT), Kharagpur, India, in 2000, and the M.S. and Ph.D. degrees from Stanford University, Stanford, CA, in 2003 and 2006, respectively.
He is currently a Research Staff Member with the IBM T. J. Watson Research Center, Yorktown Heights, NY. His research interests include novel semiconductor devices and m...Show More
Bipin Rajendran received the B.Tech. (honors) degree in instrumentation engineering from Indian Institute of Technology (IIT), Kharagpur, India, in 2000, and the M.S. and Ph.D. degrees from Stanford University, Stanford, CA, in 2003 and 2006, respectively.
He is currently a Research Staff Member with the IBM T. J. Watson Research Center, Yorktown Heights, NY. His research interests include novel semiconductor devices and m...View more
Author image of Rohit S. Shenoy
IBM Almaden Research Center, San Jose, CA, USA
Rohit S. Shenoy (MM'06) received the B.Tech. degree in engineering physics from Indian Institute of Technology (IIT), Bombay, India, in 1998, and the M.S. and Ph.D. degrees in electrical engineering from Stanford University, Stanford, CA, in 2000 and 2005, respectively.
Since 2005, he has been employed with the IBM Almaden Research Center, San Jose, CA, where he is a Research Staff Member. His current research interests in...Show More
Rohit S. Shenoy (MM'06) received the B.Tech. degree in engineering physics from Indian Institute of Technology (IIT), Bombay, India, in 1998, and the M.S. and Ph.D. degrees in electrical engineering from Stanford University, Stanford, CA, in 2000 and 2005, respectively.
Since 2005, he has been employed with the IBM Almaden Research Center, San Jose, CA, where he is a Research Staff Member. His current research interests in...View more
Author image of Daniel J. Witte
Department of Electrical Engineering, Stanford University, Stanford, CA, USA
Daniel J. Witte was born in Christchurch, New Zealand, on November 30, 1982. He received the B.E. degree (with honors) in electrical engineering from University of Canterbury, Christchurch, New Zealand, in 1999. He is currently working toward the Ph.D. degree in electrical engineering at Stanford University, Stanford, CA. His thesis work is on the controlled crystallization of silicon for monolithic 3-D integration of dev...Show More
Daniel J. Witte was born in Christchurch, New Zealand, on November 30, 1982. He received the B.E. degree (with honors) in electrical engineering from University of Canterbury, Christchurch, New Zealand, in 1999. He is currently working toward the Ph.D. degree in electrical engineering at Stanford University, Stanford, CA. His thesis work is on the controlled crystallization of silicon for monolithic 3-D integration of dev...View more
Author image of Nehal S. Chokshi
AMBP Tech Corporation, Tonowanda, NY, USA
Thomas Weisel Partners, LLC, San Francisco, CA, USA
Nehal S. Chokshi received the B.S. degree in chemical engineering from Columbia University, New York, NY, in 1997, the M.S.E. degree in materials science from University of Michigan, Ann Arbor, in 2000, and the MBA degree from University of Rochester, Rochester, NY, in 2005.
From 2000 to 2003, he was a Process Development Engineer with JDS Uniphase developing high-speed photodiodes for 10 and 40 Gb/s transceiver applicatio...Show More
Nehal S. Chokshi received the B.S. degree in chemical engineering from Columbia University, New York, NY, in 1997, the M.S.E. degree in materials science from University of Michigan, Ann Arbor, in 2000, and the MBA degree from University of Rochester, Rochester, NY, in 2005.
From 2000 to 2003, he was a Process Development Engineer with JDS Uniphase developing high-speed photodiodes for 10 and 40 Gb/s transceiver applicatio...View more
Author image of Robert L. DeLeon
AMBP Tech Corporation, Tonowanda, NY, USA
State University of New York, Buffalo, NY, USA
Robert L. DeLeon received the B.S. degree in chemistry from State University of New York (SUNY), Stony Brook, in 1976 and the Ph.D. degree in physical chemistry from the University of Rochester, Rochester, NY, in 1981.
After a brief postdoctoral stay with Rochester doing research in laser spectroscopy, he took a position with Arvin Calspan where he studied highly vibrationally excited plasmas and high enthalpy flows using ...Show More
Robert L. DeLeon received the B.S. degree in chemistry from State University of New York (SUNY), Stony Brook, in 1976 and the Ph.D. degree in physical chemistry from the University of Rochester, Rochester, NY, in 1981.
After a brief postdoctoral stay with Rochester doing research in laser spectroscopy, he took a position with Arvin Calspan where he studied highly vibrationally excited plasmas and high enthalpy flows using ...View more
Author image of Gary S. Tompa
AMBP Tech Corporation, Tonowanda, NY, USA
Structured Materials Industries, Inc., Piscataway, NJ, USA
Gary S. Tompa received the B.Sc. degree (with honors) and the Ph.D. degree in physics as a Garden State Fellow from Stevens Institute of Technology (SIT), Hoboken, NJ, in 1980 and 1986, respectively.
He then completed a one-year postdoctoral program with SIT, and in 1987, he joined the Emcore Corporation as a Staff Scientist, where he rose to the level of Director of Systems Technology and Contract Research. While with Emc...Show More
Gary S. Tompa received the B.Sc. degree (with honors) and the Ph.D. degree in physics as a Garden State Fellow from Stevens Institute of Technology (SIT), Hoboken, NJ, in 1980 and 1986, respectively.
He then completed a one-year postdoctoral program with SIT, and in 1987, he joined the Emcore Corporation as a Staff Scientist, where he rose to the level of Director of Systems Technology and Contract Research. While with Emc...View more
Author image of R. Fabian W. Pease
Department of Electrical Engineering, Stanford University, Stanford, CA, USA
R. Fabian W. Pease (M'75–SM'83–F'89) received the B.A., M.A., and Ph.D. degrees from Cambridge University, U.K., in 1960, 1962, and 1964, respectively. His Ph.D. thesis was on high resolution scanning electron microscopy.
He served as a Radar Officer with the Royal Air Force from 1955 to 1957. After graduating, he was an Assistant Professor of electrical engineering with UC Berkeley for three years, where he continued his ...Show More
R. Fabian W. Pease (M'75–SM'83–F'89) received the B.A., M.A., and Ph.D. degrees from Cambridge University, U.K., in 1960, 1962, and 1964, respectively. His Ph.D. thesis was on high resolution scanning electron microscopy.
He served as a Radar Officer with the Royal Air Force from 1955 to 1957. After graduating, he was an Assistant Professor of electrical engineering with UC Berkeley for three years, where he continued his ...View more
Contents

I. Introduction

Three-Dimensional (3-D) integrated circuits [1] can be built by prefabricating the circuits on separate wafers and then aligning and bonding the thinned wafers and interconnecting the different levels with deep metal vias [2]. This process is expensive and the alignment is difficult, leading to large areas set aside for the deep metal vias. An alternative monolithic method is to fabricate devices in situ on crystalline layers above an existing circuitry. The crystalline layer can be attached by a low-temperature wafer-bonding process [3].

Author image of Bipin Rajendran
Department of Electrical Engineering, Stanford University, Stanford, CA, USA
Yorktown Heights, IBM T. J. Watson Research Center, NY, USA
Bipin Rajendran received the B.Tech. (honors) degree in instrumentation engineering from Indian Institute of Technology (IIT), Kharagpur, India, in 2000, and the M.S. and Ph.D. degrees from Stanford University, Stanford, CA, in 2003 and 2006, respectively.
He is currently a Research Staff Member with the IBM T. J. Watson Research Center, Yorktown Heights, NY. His research interests include novel semiconductor devices and materials for memory and logic applications.
Bipin Rajendran received the B.Tech. (honors) degree in instrumentation engineering from Indian Institute of Technology (IIT), Kharagpur, India, in 2000, and the M.S. and Ph.D. degrees from Stanford University, Stanford, CA, in 2003 and 2006, respectively.
He is currently a Research Staff Member with the IBM T. J. Watson Research Center, Yorktown Heights, NY. His research interests include novel semiconductor devices and materials for memory and logic applications.View more
Author image of Rohit S. Shenoy
IBM Almaden Research Center, San Jose, CA, USA
Rohit S. Shenoy (MM'06) received the B.Tech. degree in engineering physics from Indian Institute of Technology (IIT), Bombay, India, in 1998, and the M.S. and Ph.D. degrees in electrical engineering from Stanford University, Stanford, CA, in 2000 and 2005, respectively.
Since 2005, he has been employed with the IBM Almaden Research Center, San Jose, CA, where he is a Research Staff Member. His current research interests include novel devices for ultrahigh density memory and CMOS logic.
Rohit S. Shenoy (MM'06) received the B.Tech. degree in engineering physics from Indian Institute of Technology (IIT), Bombay, India, in 1998, and the M.S. and Ph.D. degrees in electrical engineering from Stanford University, Stanford, CA, in 2000 and 2005, respectively.
Since 2005, he has been employed with the IBM Almaden Research Center, San Jose, CA, where he is a Research Staff Member. His current research interests include novel devices for ultrahigh density memory and CMOS logic.View more
Author image of Daniel J. Witte
Department of Electrical Engineering, Stanford University, Stanford, CA, USA
Daniel J. Witte was born in Christchurch, New Zealand, on November 30, 1982. He received the B.E. degree (with honors) in electrical engineering from University of Canterbury, Christchurch, New Zealand, in 1999. He is currently working toward the Ph.D. degree in electrical engineering at Stanford University, Stanford, CA. His thesis work is on the controlled crystallization of silicon for monolithic 3-D integration of devices.
Mr. Witte is a member of the Golden Key National Honor Society.
Daniel J. Witte was born in Christchurch, New Zealand, on November 30, 1982. He received the B.E. degree (with honors) in electrical engineering from University of Canterbury, Christchurch, New Zealand, in 1999. He is currently working toward the Ph.D. degree in electrical engineering at Stanford University, Stanford, CA. His thesis work is on the controlled crystallization of silicon for monolithic 3-D integration of devices.
Mr. Witte is a member of the Golden Key National Honor Society.View more
Author image of Nehal S. Chokshi
AMBP Tech Corporation, Tonowanda, NY, USA
Thomas Weisel Partners, LLC, San Francisco, CA, USA
Nehal S. Chokshi received the B.S. degree in chemical engineering from Columbia University, New York, NY, in 1997, the M.S.E. degree in materials science from University of Michigan, Ann Arbor, in 2000, and the MBA degree from University of Rochester, Rochester, NY, in 2005.
From 2000 to 2003, he was a Process Development Engineer with JDS Uniphase developing high-speed photodiodes for 10 and 40 Gb/s transceiver applications. From 2004 to 2006, he led business development efforts with AMBP Tech Corporation, Tonowanda, NY, covering a range of laser processing technologies, including the LAMBD and laser annealing techniques. He is currently an Equity Research Associate with Thomas Weisel Partners, LLC, San Francisco, CA, covering the semiconductor capital equipment industry.
Nehal S. Chokshi received the B.S. degree in chemical engineering from Columbia University, New York, NY, in 1997, the M.S.E. degree in materials science from University of Michigan, Ann Arbor, in 2000, and the MBA degree from University of Rochester, Rochester, NY, in 2005.
From 2000 to 2003, he was a Process Development Engineer with JDS Uniphase developing high-speed photodiodes for 10 and 40 Gb/s transceiver applications. From 2004 to 2006, he led business development efforts with AMBP Tech Corporation, Tonowanda, NY, covering a range of laser processing technologies, including the LAMBD and laser annealing techniques. He is currently an Equity Research Associate with Thomas Weisel Partners, LLC, San Francisco, CA, covering the semiconductor capital equipment industry.View more
Author image of Robert L. DeLeon
AMBP Tech Corporation, Tonowanda, NY, USA
State University of New York, Buffalo, NY, USA
Robert L. DeLeon received the B.S. degree in chemistry from State University of New York (SUNY), Stony Brook, in 1976 and the Ph.D. degree in physical chemistry from the University of Rochester, Rochester, NY, in 1981.
After a brief postdoctoral stay with Rochester doing research in laser spectroscopy, he took a position with Arvin Calspan where he studied highly vibrationally excited plasmas and high enthalpy flows using optical and spectroscopic technologies. During this time, he also worked with SUNY, Buffalo, NY, as an Adjunct Associate Professor, teaching part time and developing the laser assisted molecular beam (LAMB) technology for the deposition of thin films. In 1997, he cofounded and was the Technical Director with AMBP Tech Corporation, Tonowanda, NY, where he developed proprietary technology in the LAMB deposition method, the closely related pulsed arc molecular beam (PAMB) deposition method and laser annealing processes. He is currently with SUNY, Buffalo, studying reactions in high-temperature flows, ionic reactions in molecular beams, and furthering the development of the PAMB thin film deposition technology.
Robert L. DeLeon received the B.S. degree in chemistry from State University of New York (SUNY), Stony Brook, in 1976 and the Ph.D. degree in physical chemistry from the University of Rochester, Rochester, NY, in 1981.
After a brief postdoctoral stay with Rochester doing research in laser spectroscopy, he took a position with Arvin Calspan where he studied highly vibrationally excited plasmas and high enthalpy flows using optical and spectroscopic technologies. During this time, he also worked with SUNY, Buffalo, NY, as an Adjunct Associate Professor, teaching part time and developing the laser assisted molecular beam (LAMB) technology for the deposition of thin films. In 1997, he cofounded and was the Technical Director with AMBP Tech Corporation, Tonowanda, NY, where he developed proprietary technology in the LAMB deposition method, the closely related pulsed arc molecular beam (PAMB) deposition method and laser annealing processes. He is currently with SUNY, Buffalo, studying reactions in high-temperature flows, ionic reactions in molecular beams, and furthering the development of the PAMB thin film deposition technology.View more
Author image of Gary S. Tompa
AMBP Tech Corporation, Tonowanda, NY, USA
Structured Materials Industries, Inc., Piscataway, NJ, USA
Gary S. Tompa received the B.Sc. degree (with honors) and the Ph.D. degree in physics as a Garden State Fellow from Stevens Institute of Technology (SIT), Hoboken, NJ, in 1980 and 1986, respectively.
He then completed a one-year postdoctoral program with SIT, and in 1987, he joined the Emcore Corporation as a Staff Scientist, where he rose to the level of Director of Systems Technology and Contract Research. While with Emcore, he worked on the development and implementation of all aspects of MOCVD technology for compound semiconductors and oxides that are still used today. In 1992, he founded Structured Materials Industries, Inc. (SMI), Piscataway, NJ, where he remains as company President. With SMI, he led the development and application of the MOCVD to complex and advanced oxides, among other materials, including recent development of carbide, nitride, and chalcogenide MOCVD tools. He is a Concurrent Entrepreneur having helped cofound several companies, including AMBP Tech Corporation (Tonowanda, NY), and NEI Corporation (Piscataway, NJ), among others.
Dr. Tompa is a member of the Tau Beta Pi, Engineering Honor Society, and several other organizations.
Gary S. Tompa received the B.Sc. degree (with honors) and the Ph.D. degree in physics as a Garden State Fellow from Stevens Institute of Technology (SIT), Hoboken, NJ, in 1980 and 1986, respectively.
He then completed a one-year postdoctoral program with SIT, and in 1987, he joined the Emcore Corporation as a Staff Scientist, where he rose to the level of Director of Systems Technology and Contract Research. While with Emcore, he worked on the development and implementation of all aspects of MOCVD technology for compound semiconductors and oxides that are still used today. In 1992, he founded Structured Materials Industries, Inc. (SMI), Piscataway, NJ, where he remains as company President. With SMI, he led the development and application of the MOCVD to complex and advanced oxides, among other materials, including recent development of carbide, nitride, and chalcogenide MOCVD tools. He is a Concurrent Entrepreneur having helped cofound several companies, including AMBP Tech Corporation (Tonowanda, NY), and NEI Corporation (Piscataway, NJ), among others.
Dr. Tompa is a member of the Tau Beta Pi, Engineering Honor Society, and several other organizations.View more
Author image of R. Fabian W. Pease
Department of Electrical Engineering, Stanford University, Stanford, CA, USA
R. Fabian W. Pease (M'75–SM'83–F'89) received the B.A., M.A., and Ph.D. degrees from Cambridge University, U.K., in 1960, 1962, and 1964, respectively. His Ph.D. thesis was on high resolution scanning electron microscopy.
He served as a Radar Officer with the Royal Air Force from 1955 to 1957. After graduating, he was an Assistant Professor of electrical engineering with UC Berkeley for three years, where he continued his microscopy research. In 1967, he joined the technical staff of Bell Laboratories, where he first worked on digital television and later led a group that developed the processes for electron beam lithographic mask manufacture, and demonstrated a pioneering LSI circuit built with electron beam lithography. Since 1978, he has been a Professor of electrical engineering with Stanford University, Stanford, CA. His group's areas of research include micro- and nano-fabrication and their application to electronic and magnetic devices and structures. This work has included the original demonstration of lithography with the scanning tunneling microscope, exploring the limits of resolution of deep ultraviolet lithography, the invention of the microchannel heat sink, and the nonconventional electron beam technology for semiconductor manufacturing.
R. Fabian W. Pease (M'75–SM'83–F'89) received the B.A., M.A., and Ph.D. degrees from Cambridge University, U.K., in 1960, 1962, and 1964, respectively. His Ph.D. thesis was on high resolution scanning electron microscopy.
He served as a Radar Officer with the Royal Air Force from 1955 to 1957. After graduating, he was an Assistant Professor of electrical engineering with UC Berkeley for three years, where he continued his microscopy research. In 1967, he joined the technical staff of Bell Laboratories, where he first worked on digital television and later led a group that developed the processes for electron beam lithographic mask manufacture, and demonstrated a pioneering LSI circuit built with electron beam lithography. Since 1978, he has been a Professor of electrical engineering with Stanford University, Stanford, CA. His group's areas of research include micro- and nano-fabrication and their application to electronic and magnetic devices and structures. This work has included the original demonstration of lithography with the scanning tunneling microscope, exploring the limits of resolution of deep ultraviolet lithography, the invention of the microchannel heat sink, and the nonconventional electron beam technology for semiconductor manufacturing.View more
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