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In Memoriam - Morris Tanenbaum, inventor of the silicon transistor

by Thierry E. Klein , Peter Vetter
13 Mar 2023
Portrait photograph of Morris Tanenbaum

Not many people get to say they altered the course of history. But our friend and colleague Morris (Morry) Tanenbaum is one of those select few.

A long-time fixture at Bell Labs, first as a chemist and later as an executive, Tanenbaum is widely regarded as one of the founding fathers of the digital age for developing and demonstrating the first silicon transistor, a contraption that powered the semiconductor revolution and came to define an industry.

On Feb. 26, Tanenbaum passed away peacefully in his home in New Providence, New Jersey. He was 94.

The son of immigrants from Poland and Russia, Tanenbaum was born in West Virginia but spent nearly his entire life in the New Jersey area. He earned a Bachelor of Arts in Chemistry from Johns Hopkins University in 1949 and a Doctor of Philosophy in Physical Chemistry from Princeton University in 1952. (It was there, incidentally, while attending a philosophy lecture, that he first encountered Albert Einstein, dressed in sweats, sitting in on the same class).

Shortly after, Tanenbaum joined Bell Labs. The point-contact transistor was less than five years old, and Tanenbaum was immediately fascinated by whether he could discover a more effective semiconductor than germanium.

He worked methodically, obtaining a variety of materials in their purest form: aluminum, gallium, indium and eventually a rare element called tellurium. Finally, he settled on silicon. Months of work, in which he “grew” a long crystal that could alternate the amount of n-type and p-type impurities, led to his monumental Jan. 26, 1954, demonstration of the silicon transistor at Bell Labs’ Murray Hill campus.

Within a year, the device proved to perform better than any germanium transistor in existence.

“This looks like the transistor we’ve been waiting for. It should be a cinch to make,” Tanenbaum wrote in his notebook.

He was right. The future belonged to silicon.

Morris Tanenbaum (C), Silicon Transistor Inventor, with Co-workers Charles Lee (L) and Donald Thomas (R), 1955

In its nearly 100 years, Nokia Bell Labs has made groundbreaking innovations in radio astronomy, information theory, optical and cellular communications.

Its researchers have also created the solar cell, the laser, the seminal Telstar satellite, the charge-coupled device and the Unix computer operating system that paved a path to the internet. But perhaps no creation has shaped science and society more than the transistor. It became the foundation of nearly all that followed.

Tanenbaum’s silicon transistor was such a breakthrough because it could operate at much higher temperatures than the existing version made of germanium, which itself was far more efficient than the vacuum tubes that came before.

Silicon, the second most abundant element in the Earth’s crust, was just as chemically reactive as germanium but it was not as sensitive to humidity and was far cheaper to produce.

Tanenbaum’s invention quickly became the world’s preferred semiconductor material. The silicon transistor, which acted as a switch or an amplifier, became the key component in integrated circuits that powered microprocessors and electronic devices manufactured worldwide. Its name naturally led to the famous moniker of a certain Northern California valley.

Tanenbaum’s initial work has progressed so far that today some 30 million transistors can fit on the head of a pin. Today’s transistors are measured in nanometers. For the sake of comparison, a human hair is 90,000 nanometers wide.

For even further perspective, today’s average smart phone is comprised of about 460 billion transistors.

Silicon transistors are so ubiquitous that an estimated 10 quintillion were produced in 2009, for example, about 250 times more than all the grains of rice consumed that year.

And it all began with Tanenbaum’s breakthrough.

Later in his career, Tanenbaum also led a team that invented the first high-field superconducting magnets that are now used in medical imaging devices. He then transitioned to a second career as a senior executive at Bell Labs, Western Electric and New Jersey Bell.

Tanenbaum was chairman and CEO of AT&T Communications at the breakup of the Bell System in 1984 and retired seven years later as chief financial officer and vice chairman of AT&T.

In 2013, he received the Science and Technology Medal at the Edison Patent Awards.

Tanenbaum is survived by his beloved wife of 72 years, Charlotte, his two children, his three grandchildren and five great-grandchildren. He will be sorely missed.

 

The picture within the text: Morris Tanenbaum (C), Silicon Transistor Inventor, with Co-workers Charles Lee (L) and Donald Thomas (R), 1955.

Thierry E. Klein

About Thierry E. Klein

Thierry E. Klein is the President of Bell Labs Solutions Research at Nokia Bell Labs. His global multi-disciplinary team conducts fundamental and applied research focused on new Nokia value chains, business opportunities and ecosystems. Bell Labs Solutions Research pursues research and innovation into advanced technologies, architectures, systems and applications beyond Nokia’s current product and solutions portfolio, including research into advanced sensing technologies, AI-based knowledge systems and fundamental algorithms, autonomous software and data systems, and integrated solutions and experiences.

Prior to his appointment as President of Bell Labs Solutions Research, Thierry was the Head of the Integrated Solutions and Experiences Research Lab at Nokia Bell Labs, leading a global research team dedicated to applied research, innovation and advanced technologies with the mission to design, develop and prototype massively disruptive solutions, systems and experiences for the next human-industrial revolution. The research domains span new wearable devices, cloud robotics and drones, image and data analytics, industrial process optimization and automation enabled by 5G networking and edge computing technologies.

Previously, he was the Head of Innovation Management for Vertical Industries with a focus on the transportation, automotive and connected industries sectors. He also served as the Founding Vice-Chair of the Board of the 5G Automotive Association (5GAA), a cross-industry association bringing together the telecommunications and automotive industries that he helped found and launch in September 2016. He was also the Program Leader for the Network Energy Research Program at Bell Labs, Alcatel-Lucent with the mission to conduct research towards the design, development and use of sustainable future communications and data networks. He served as the Chairman of the Technical Committee of GreenTouch, a global consortium dedicated to improve energy efficiency in networks by a factor 1000x compared to 2010 levels.

He joined Bell Labs Research in Murray Hill, New Jersey in 2001 and his initial research was focused on next-generation wireless and wireline networks, network architectures, algorithms and protocols, network management, optimization and control. From 2006 to 2010 he served as the Founder and CTO of an internal start-up focused on wireless communications for emergency response and disaster recovery situations within Alcatel-Lucent Ventures.

Thierry earned an MS in Mechanical Engineering and an MS in Electrical Engineering from the Université de Nantes and the Ecole Centrale de Nantes in Nantes, France. He received a PhD in Electrical Engineering and Computer Science from the Massachusetts Institute of Technology, USA. He is an author on over 35 peer-reviewed conference and journal publications and an inventor on 36 patent applications. He is the recipient of a Bell Labs’ President Award and two Bell Labs Teamwork Awards. In 2010, he was voted “Technologist of the Year” at the Total Telecom World Vendor Awards and received the 2016 Industrial Innovation Award from the IEEE Communications Society.

Thierry has dual US and Luxembourg citizenship and speaks four languages. He lives in Fanwood, New Jersey with his wife and son.

Peter Vetter

About Peter Vetter

Peter Vetter is President of Bell Labs Core Research at Nokia and is leading an eminent global team with the mission to invent game changing innovations that define the future of networks. Bell Labs Core Research is exploring and innovating the key technologies that will prepare Nokia’s core business for the 6G era on a 10-year horizon. That includes foundational research on network architecture, programmable-network systems and security, optical systems and components, mobile radio systems, and platforms and ASICs.

Previously under his leadership the Bell Labs Access & Device Research Lab made some of its most significant discoveries and established new milestones in fixed and wireless communications. Many of those innovations form the backbone of Nokia’s mobile and broadband products today. He was also co-founder of an internal venture that produced the first FTTH product in Alcatel (now part of Nokia) in 2000.

He received the degree of Physics Engineer from Gent University (Belgium) in 1986 and a PhD with Prof. H. Pauwels in 1991. After a post-doctoral fellowship with Prof. T. Uchida at Tohoku University (Japan), he joined the research center of Alcatel (now Nokia) in Antwerp in 1993. Since 2009, he has worked at Bell Labs in Murray Hill, New Jersey, and has been on the senior leadership team of Bell Labs since 2013. He has authored over a hundred international papers and presented keynotes and tutorials at major technical industry events. Peter Vetter is Bell Labs Fellow and IEEE Fellow.