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Welcome to the community hub built on top of the Ursula Keller Wikipedia article. Here, you can discuss, collect, and organize anything related to Ursula Keller. The purpose of the hub is to connect people, foster deeper knowledge, and help improve the root Wikipedia article.
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Timelines
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Early Life and Education Timeline

Birth in Zug, Switzerland
June 21, 1959
Ursula Keller was born in Zug, Switzerland, marking the beginning of her life journey. Details about her early childhood and family background in Zug are scarce but shaped her initial exposure to the world.
Physics Studies at ETH Zurich
1978-1984
Keller pursued her undergraduate and graduate studies in Physics at the prestigious ETH Zurich. This period was crucial for her, providing a solid foundation in physics and setting the stage for her future specialization in laser physics and photonics. She would have engaged with fundamental concepts and early research experiences that sparked her scientific curiosity.
Ph.D. in Physics at ETH Zurich
1984-1987
Continuing at ETH Zurich, Keller completed her Ph.D. in Physics. This involved intensive research and the development of her expertise in a specific area of physics. This period would have entailed rigorous study, experimentation, and the completion of a doctoral thesis, marking her transition to an independent researcher.

Main milestones

Birth in Zug, Switzerland
June 21, 1959
Ursula Keller was born in Zug, Switzerland. Her early life and upbringing laid the foundation for her future pursuit of scientific excellence. The Swiss emphasis on precision and innovation likely influenced her later work in laser physics.
Diploma in Physics, ETH Zurich
1984
Keller obtained her diploma (Master's equivalent) in Physics from the Swiss Federal Institute of Technology (ETH) Zurich, one of the world's leading science and technology universities. This marked the formal beginning of her career in physics, providing a strong foundation in theoretical and experimental physics.
Ph.D. in Physics, Stanford University
1987
Ursula Keller earned her Ph.D. in Physics from Stanford University, USA. Her doctoral research likely involved exploring the properties and behavior of laser systems, laying the groundwork for her future innovations in ultrafast laser technology. This international experience broadened her perspective and research network.
Research Scientist, AT&T Bell Laboratories
1989
Following her Ph.D., Keller joined AT&T Bell Laboratories (later Lucent Technologies), a renowned center for innovation in telecommunications. Here, she gained invaluable industrial research experience, contributing to cutting-edge developments in fiber optics and laser technology. This allowed her to apply her academic knowledge to real-world challenges.
Professor of Physics, ETH Zurich
1993
Keller returned to ETH Zurich as a Professor of Physics. This marked a pivotal moment in her career, providing her with the platform to lead her own research group and train the next generation of scientists. Her appointment demonstrated the recognition of her significant contributions to laser physics.
Development of Semiconductor Saturable Absorber Mirrors (SESAMs)
1996
Keller's group pioneered the development of Semiconductor Saturable Absorber Mirrors (SESAMs), a key enabling technology for passively mode-locked solid-state lasers. SESAMs revolutionized ultrafast laser technology by providing a reliable and versatile mechanism for generating ultrashort pulses. This invention established her as a leader in the field.
ERC Advanced Grant
2010
Keller received a prestigious Advanced Grant from the European Research Council (ERC). This substantial funding enabled her to pursue high-risk, high-reward research in attosecond science and advanced laser systems, further solidifying her research leadership.
SPIE Gold Medal
2015
Ursula Keller was awarded the SPIE Gold Medal, the highest honor bestowed by the International Society for Optics and Photonics (SPIE). This award recognized her pioneering contributions to ultrafast laser science and technology and their impact on various scientific and technological fields.
Arthur L. Schawlow Prize in Laser Science
2018
Keller received the Arthur L. Schawlow Prize in Laser Science from the American Physical Society (APS). This esteemed award honored her outstanding contributions to the fundamental understanding and advancement of laser science, further recognizing her impact on the field.
Continuing Research and Leadership at ETH Zurich
Present
As of today, Ursula Keller continues to lead a vibrant research group at ETH Zurich, pushing the boundaries of ultrafast laser science and attosecond physics. She remains a highly sought-after speaker and mentor, shaping the future of photonics research globally.

Scientific Contributions and Inventions

Development of SESAM Technology
Early 1990s
Keller is best known for her groundbreaking work on Semiconductor Saturable Absorber Mirrors (SESAMs). These devices revolutionized ultrafast laser technology by enabling the reliable and efficient generation of ultrashort laser pulses. This invention has had a profound impact on various fields, including telecommunications, medicine, and materials science.
Advancements in Ultrafast Laser Technology
Ongoing
Keller and her research group have continued to make advancements in ultrafast laser technology, exploring new materials, laser designs, and applications. This includes pushing the limits of pulse duration, power, and repetition rate, enabling new scientific discoveries and technological applications.

Academic and Research Career at ETH Zurich

Research at AT&T Bell Laboratories
1989-1993
Following her initial work, Keller spent several years as a Member of Technical Staff at AT&T Bell Laboratories, a renowned research institution. Here, she gained valuable experience in industrial research, potentially working on projects related to telecommunications and advanced materials, which enriched her skill set.
Professor at ETH Zurich
1993
Keller returned to ETH Zurich and was appointed as a professor. This was a pivotal moment, signaling her establishment as a leading academic and researcher. It allowed her to lead research groups, mentor students, and further develop her expertise in ultrafast laser technology.
Full Professor of Ultrafast Laser Physics at ETH Zurich
1997 - Present
Ursula Keller achieved the position of Full Professor of Ultrafast Laser Physics, solidifying her role as a leader in the field. Her work centered on pushing the boundaries of ultrafast laser technology, and mentoring future generations of scientists in the field.
Director of the Institute for Quantum Electronics
2010 - Present
Keller's leadership abilities were recognized as she became the Director of the Institute for Quantum Electronics at ETH Zurich. This placed her in charge of a significant research institution, directing research efforts and contributing to the overall direction of quantum electronics research.

Professional Affiliations and Memberships

Fellow of Optica (formerly OSA)
Ongoing
Keller is a Fellow of Optica (formerly the Optical Society of America), a recognition of her significant contributions to the field of optics and photonics. This reflects her standing in the scientific community.
Fellow of the IEEE
Ongoing
As a Fellow of the Institute of Electrical and Electronics Engineers (IEEE), Keller is recognized for her contributions to electrical engineering and related fields. This further demonstrates her impact across different scientific and engineering disciplines.

Personal Life and Relationships

Marriage and Family
Circa 1980s - Present
While specific details are not widely available, it is known that Ursula Keller is married and has children. Balancing a demanding career with family life is likely a significant aspect of her life. The support of family is crucial for most individuals with such demanding careers.
Mentorship and Collaboration
Ongoing
As a professor, Keller has mentored numerous students and researchers, contributing to the development of the next generation of scientists. Her collaborative work with colleagues from around the world highlights her role as a leader and collaborator in the scientific community.

Awards and Recognition

Arthur L. Schawlow Prize in Laser Science
2015
Keller was awarded the prestigious Arthur L. Schawlow Prize in Laser Science by the American Physical Society. This award recognizes outstanding contributions to fundamental laser science, highlighting her impact on the field.
IEEE Edison Medal
2018
She received the IEEE Edison Medal, a highly prestigious award for a career of meritorious achievement in electrical engineering. This underscored her broad impact and contributions to electrical engineering technology and applications of SESAM technology for advanced lasers.
Charles Hard Townes Award
2020
Keller won the Charles Hard Townes Award from Optica (formerly OSA), recognizing outstanding leadership, pioneering innovations, and major contributions to the field of quantum electronics.

Publications and Intellectual Output

Numerous Peer-Reviewed Publications
1980s - Present
Keller has authored or co-authored a vast number of peer-reviewed publications in leading scientific journals. These publications cover a wide range of topics within ultrafast laser physics and related fields, demonstrating her breadth of knowledge and expertise.
Patents and Intellectual Property
1990s - Present
Keller's inventions, particularly in the area of SESAM technology, have resulted in numerous patents. These patents protect her intellectual property and contribute to the commercialization of her research.
Presentations at International Conferences
Ongoing
Keller is a frequent speaker at international conferences, presenting her research findings and engaging with other scientists. These presentations allow her to share her knowledge and inspire others in the field.

SESAM Technology Timeline

Invention and Initial Development of SESAMs
Early 1990s
Ursula Keller's research team conceptualized, developed, and demonstrated the first SESAMs. This revolutionary invention provided a simple yet reliable approach to mode-locking lasers, leading to the generation of stable and ultrashort pulses.
Refinement and Optimization of SESAM Designs
Mid-1990s - Present
Following the initial development, Keller's team focused on refining SESAM designs and optimizing their performance for various laser systems. This included exploring new materials, structures, and fabrication techniques to enhance pulse generation capabilities.
Widespread Adoption of SESAMs in Laser Systems
Late 1990s - Present
SESAMs quickly gained popularity and were widely adopted in various laser systems, including solid-state lasers, fiber lasers, and semiconductor lasers. Their ability to generate stable and ultrashort pulses made them essential components for numerous scientific, industrial, and medical applications.
Applications of SESAMs in Various Fields
2000s - Present
SESAMs found applications in diverse fields, including optical communication, spectroscopy, microscopy, material processing, and medical imaging. Their compact size, robustness, and ease of use made them suitable for integration into various laser systems.

Impact on Ultrafast Laser Physics

Training and Mentoring of Researchers
Ongoing
Keller's position at ETH Zurich has allowed her to train and mentor a significant number of students and postdoctoral researchers, contributing to the growth and development of the field. Her students have gone on to make their own significant contributions, further amplifying her impact.
Influence on Research Directions
Ongoing
Through her publications, presentations, and leadership roles, Keller has shaped the direction of research in ultrafast laser physics. Her work has inspired others to explore new materials, laser designs, and applications, pushing the boundaries of the field.
Promotion of Scientific Collaboration
Ongoing
Keller has fostered collaboration among researchers from different institutions and countries, promoting the exchange of ideas and accelerating scientific progress. These collaborations have led to numerous joint publications and projects, advancing the field as a whole.
Articles
0
Notes collections
0
Notes
0
Days in Chronicle
2
28 November, 2024
As of November 28, 2024, Ursula Keller's first SESAM review publication has been cited by 2472 people.
21 June, 1959
Ursula Keller was born on June 21, 1959. She is a Swiss physicist known for her work in ultrafast laser technology, particularly the invention of the semiconductor saturable absorber mirror (SESAM).
Brief
Known For
Pioneering work in ultrafast laser technology, particularly for her development of semiconductor saturable absorber mirrors (SESAMs) which enabled the creation of compact and reliable femtosecond lasers. Also known for her contributions to attosecond science and frequency comb technology.
Key Dates and Places
  • Born Date: 21 June 1959.
  • Born Place: Goldau, Switzerland.
Career
  • Current occupation: Professor of Physics at ETH Zurich.
  • Current Place of Work: ETH Zurich, Institute for Quantum Electronics.
Achievements and Recognition
  • Awards: Numerous awards and honors including: IEEE Edison Medal (2020), Charles Hard Townes Award (2018) from The Optical Society (OSA), Arthur L. Schawlow Prize in Laser Science (2015) from the American Physical Society (APS), ERC Advanced Grant (several times), Latsis Prize, Weizmann Women & Science Award, Swiss Science Prize Marcel Benoist (2021). Foreign member of the National Academy of Sciences (United States), the German Academy of Sciences Leopoldina, and the Royal Swedish Academy of Sciences. Honorary Doctorates from University of Neuchâtel and University of St Andrews.
Education
Diploma in Physics from ETH Zurich (1984), PhD in Physics from Stanford University (1989).
Main Milestones
Birth in Zug, Switzerland
June 21, 1959
Ursula Keller was born in Zug, Switzerland. Her early life and upbringing laid the foundation for her future pursuit of scientific excellence. The Swiss emphasis on precision and innovation likely influenced her later work in laser physics.
Diploma in Physics, ETH Zurich
1984
Keller obtained her diploma (Master's equivalent) in Physics from the Swiss Federal Institute of Technology (ETH) Zurich, one of the world's leading science and technology universities. This marked the formal beginning of her career in physics, providing a strong foundation in theoretical and experimental physics.
Ph.D. in Physics, Stanford University
1987
Ursula Keller earned her Ph.D. in Physics from Stanford University, USA. Her doctoral research likely involved exploring the properties and behavior of laser systems, laying the groundwork for her future innovations in ultrafast laser technology. This international experience broadened her perspective and research network.
Research Scientist, AT&T Bell Laboratories
1989
Following her Ph.D., Keller joined AT&T Bell Laboratories (later Lucent Technologies), a renowned center for innovation in telecommunications. Here, she gained invaluable industrial research experience, contributing to cutting-edge developments in fiber optics and laser technology. This allowed her to apply her academic knowledge to real-world challenges.
Professor of Physics, ETH Zurich
1993
Keller returned to ETH Zurich as a Professor of Physics. This marked a pivotal moment in her career, providing her with the platform to lead her own research group and train the next generation of scientists. Her appointment demonstrated the recognition of her significant contributions to laser physics.
Development of Semiconductor Saturable Absorber Mirrors (SESAMs)
1996
Keller's group pioneered the development of Semiconductor Saturable Absorber Mirrors (SESAMs), a key enabling technology for passively mode-locked solid-state lasers. SESAMs revolutionized ultrafast laser technology by providing a reliable and versatile mechanism for generating ultrashort pulses. This invention established her as a leader in the field.
ERC Advanced Grant
2010
Keller received a prestigious Advanced Grant from the European Research Council (ERC). This substantial funding enabled her to pursue high-risk, high-reward research in attosecond science and advanced laser systems, further solidifying her research leadership.
SPIE Gold Medal
2015
Ursula Keller was awarded the SPIE Gold Medal, the highest honor bestowed by the International Society for Optics and Photonics (SPIE). This award recognized her pioneering contributions to ultrafast laser science and technology and their impact on various scientific and technological fields.
Arthur L. Schawlow Prize in Laser Science
2018
Keller received the Arthur L. Schawlow Prize in Laser Science from the American Physical Society (APS). This esteemed award honored her outstanding contributions to the fundamental understanding and advancement of laser science, further recognizing her impact on the field.
Continuing Research and Leadership at ETH Zurich
Present
As of today, Ursula Keller continues to lead a vibrant research group at ETH Zurich, pushing the boundaries of ultrafast laser science and attosecond physics. She remains a highly sought-after speaker and mentor, shaping the future of photonics research globally.
Ursula Keller
Ursula Keller (2022)

Ursula Keller (born 21 June 1959) is a Swiss physicist. She has been a tenured physics professor at ETH Zurich, Switzerland since 1993.[1] A pioneer in ultrafast science and technology,[2] she is known for inventing the semiconductor saturable absorber mirror (SESAM), enabling passive mode-locking of lasers and revolutionizing ultrafast laser applications in science and industry.[3] Keller led the Swiss NCCR MUST program in ultrafast science (2010–2022),[4] co-founded several companies, including Time-Bandwidth Products [5] (now part of Lumentum [6]) and K2 Photonics,[7] and published a graduate textbook "Ultrafast Laser Physics" with Springer Verlag.[8] She is highly cited [9] and received many prestigious awards. From 2012-2016 she was the founding president of the Women Professors Forum at ETH Zurich.[10]

Key Information

Career

[edit]

Ursula Keller grew up in a working-class family.[11] After graduating with a "diploma" degree in physics in 1984 from ETH Zurich, Switzerland, she continued her studies at Stanford University, where she obtained a master's degree in 1987, and then continued with a doctorate in 1989 in applied physics. The topic of her studies was the development of a new technique for optical measurement of charge and voltage in GaAs type integrated circuits.

From 1989 to 1993, she started her independent research as a member of technical staff at AT&T Bell's research centre in Holmdel, New Jersey, where she conducted research on photonic switching, ultra-fast laser technology and semiconductor spectroscopy and developed a method for manufacturing ultra-short pulse lasers.

In 1993, she was appointed as a tenured associate Professor of Physics at the Swiss Federal Institute of Technology in Zurich, becoming the school's first female Professor of Physics.[12] In October 1997, she became a full professor.

Her research areas are ultra-fast solid-state and semiconductor lasers, the development of reliable and functional instruments to generate extreme ultraviolet (EUV) X-rays and attosecond science. She developed the first method for generating ultra-fast light pulses known as semiconductor saturable-absorber mirrors (SESAMs), which have become a worldwide industry standard for cutting and welding in fields ranging from electronics and automotive industry to communications technology, medical diagnostics and surgery and have made myriad important contributions to the field of laser science since.[13] Dr. Keller’s earlier research into carrier envelope phase stabilization and frequency comb technology was integral to Theodor W. Hänsch and John L. Hall’s development of laser-based spectroscopy that garnered them the 2005 Nobel Prize in Physics.[14]

Ursula Keller has published more than 500 peer-reviewed journal papers [15] with total citation of more than 56000 and h-index of 123.[9] Her first SESAM review publication [16] has cited by 2472 people (as on 28. November 2024).

Ursula Keller has patented several inventions in the field of ultra-fast lasers for industrial and medical applications.[17]

She is the creator of the Attoclock,[18] one of the most accurate time measurement devices in the world, which can record time intervals up to a few attoseconds, the billionth part of a billionth of a second.[19]

From 2010 to 2022, Ursula Keller has been Director of the Swiss National Research Centre for Ultra-fast Molecular Sciences and Technologies (NCCR MUST),[20] funded by the Swiss National Science Foundation.[21]

Since 2014, she has been a member of the Research Council of the Swiss National Science Foundation.[19]

In 2018, Ursula Keller won the European Inventor Award in the "Lifetime Achievement ".[17] In 2019, she was appointed as one of the leading experts that judges proposals for this award.[22]

She won the IEEE Photonics Award[23] in 2018 and the IEEE Edison Medal[24] in 2019.

She won the 2020 Gold Medal from the Society of Photo-Optical Instrumentation Engineers[25] and the 2020 Frederic Ives Medal / Jarus Quinn Prize[26] from the Optical Society.

Ursula Keller engages for equal rights and better career opportunities of women in fields of Science, technology, engineering, and mathematics. She was director of a research programme of the Swiss National Science Foundation from 2010 till 2022,[27] and was the founding president of the ETH Women Professors Forum.[28] In March 2019, in the context of the mobbing allegations against Marcella Carollo, Ursula Keller denounced a "lack of leadership, gender discrimination and corruption at ETH Zurich" and claimed that the reason for the proposed dismissal of her colleague was "not primarily the mobbing allegations, but her gender".[29] In the same period, Ursula Keller has been formally reprimanded by ETH Zurich, including the mention of a possible dismissal in case of recurrence.[30] Two external investigations disproved the accusations that Ursula Keller made against ETH Zurich.[31] Otherwise, the Swiss Federal Audit Office recommended more transparency in the distribution of funds.[32] The Federal Administrative Court of Switzerland ruled in 2022, that the termination was unjustified due to a lack of objectively sufficient grounds.[33]

Awards and honors

[edit]

References

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