A California university professor has warned that a freeze on new H-1B visa petitions could weaken higher education in Texas and across the US, arguing that international recruitment has been central to the success of leading universities. In a widely shared post, Jelani Nelson, a computer science professor at the University of California, Berkeley, said restricting access to global talent would damage research quality and long-term academic competitiveness.
H-1B freeze draws criticism from academia
Nelson was responding to a directive by Texas Governor Greg Abbott instructing state agencies and public universities to pause new H-1B visa petitions. Abbott said the move was intended to prioritise jobs for Texans. Nelson countered that elite universities operate in a global talent market and that limiting international hiring risks eroding academic standards rather than strengthening local opportunity.
Scholars cited as evidence of global impact
To support his argument, Nelson shared examples of prominent foreign-born academics who taught or worked at the University of Texas at Austin, noting that their careers illustrate how international scholars have historically shaped Texas’ research reputation. He stressed that the list reflects scholarly impact, not visa status.Edsger Dijkstra (born in Rotterdam, Netherlands)A Turing Award winner, Dijkstra was one of the founders of modern computer science. He introduced core ideas in algorithms, structured programming and concurrent systems. His shortest-path algorithm remains essential in navigation software, networking and logistics. During his time at the University of Texas at Austin, he helped shape rigorous approaches to software design, influenced generations of computer scientists and strengthened the university’s reputation as a centre for theoretical and practical computing.Luis Caffarelli (born in Buenos Aires, Argentina)An Abel Prize–winning mathematician, Caffarelli is a global authority on nonlinear partial differential equations. His work underpins models used in fluid dynamics, materials science and climate research. At US universities, including work connected to Texas institutions, his presence raised research standards and drew top graduate students. He helped strengthen collaboration between mathematics, physics and engineering, boosting the international standing of American and Texas-based mathematics programmes.E. C. George Sudarshan (born in Kerala, India)Sudarshan was a leading figure in theoretical physics whose work reshaped quantum optics and particle theory. He co-developed ideas central to modern quantum optics and advanced understanding of weak interactions. At the University of Texas at Austin, he helped build a strong theoretical physics culture. His mentorship trained generations of physicists and elevated UT Austin’s reputation as a serious centre for advanced physics research.Ilya Prigogine (born in Moscow, then Soviet Union; later associated with Belgium)Prigogine won the 1977 Nobel Prize in Chemistry for explaining how order can emerge in systems far from equilibrium. His ideas influenced chemistry, biology, economics and complexity science. Through his ties to US academia, he encouraged interdisciplinary research that crossed traditional boundaries. American universities benefited by becoming leaders in the study of complex systems, self-organisation and non-linear processes.Allan MacDonald (born in Canada)MacDonald is a Wolf Prize–winning physicist known for groundbreaking work in condensed matter theory. His research has guided experimental advances in superconductivity and quantum materials. At UT Austin, he helped build one of the world’s strongest condensed matter theory groups. His presence attracted elite researchers, major funding and international recognition, strengthening Texas’ position in advanced physics research.Keiko Torii (born in Japan)Torii is a leading plant biologist whose research explains how plants regulate growth and respond to stress. Her work has direct relevance to crop resilience, food security and climate adaptation. At US universities, she strengthened plant and environmental biology programmes. Her research helped position academic institutions to contribute practical solutions to global agricultural and sustainability challenges.George Georgiou (born in Greece)Georgiou is a biotechnology pioneer whose work bridges academic research and medical application. He has co-invented more than 150 patents and helped develop enzyme-based therapies for cancer and autoimmune diseases. At UT Austin, he played a key role in building a strong bioengineering ecosystem. His work boosted industry partnerships, startup creation and the real-world impact of university research.
Broader implications for higher education
Nelson warned that restricting early-career entry routes into academia could have long-term consequences, as many leading scholars begin their US careers through temporary visa pathways before becoming internationally recognised figures. He argued that narrowing these pathways risks weakening research capacity at top universities.The post has sparked debate online, with critics pointing to alternative visa categories for elite academics and supporters warning that limiting access to international talent could undermine the foundations of US higher education. The exchange reflects a wider national debate over immigration policy, labour priorities and the role of global talent in sustaining academic excellence. Go to Source
