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Robin Hartshorne

Robin Cope Hartshorne (born March 15, 1938) is an mathematician specializing in , best known for his influential textbook Algebraic Geometry, published in 1977 as part of Springer's series. Hartshorne earned an A.B. from and a Ph.D. from in 1963, with his dissertation titled Connectedness of the under advisors Oscar Zariski and John Coleman Moore. Following his graduate studies, he pursued research in in and during the era of developing schemes and cohomology theory. He joined the faculty at the , in 1972, where he served as a professor until becoming emeritus, supervising 21 Ph.D. dissertations between 1975 and 2003 and influencing generations of algebraic geometers through his students, including notable figures like Lawrence Ein and Mark Gross. Hartshorne's research contributions include foundational work on duality theory, notions of ampleness, and the , establishing him as a leader in the field. More recently, his efforts have focused on classifying algebraic space curves. He also authored the textbook Geometry: and Beyond (2000), exploring Euclidean and in relation to modern . His work also extends to the history of geometry, as seen in publications like his 2008 article on the publication history of von Staudt's Geometrie der Lage.

Early Life and Education

Early Life

Robin Hartshorne was born on March 15, 1938, in , . His early interest in geometry was sparked during a course in mechanical drawing in the fifth grade at Shady Hill School in , where he first learned about ruler-and-compass constructions. Hartshorne later attended , a prestigious preparatory school in . He graduated in 1955 and enrolled at Harvard College in 1955.

Education

Hartshorne completed his undergraduate studies at with an A.B. in 1959, where he distinguished himself as a Putnam Fellow in the Fall 1958 . During this period, he developed an early interest in , studying under prominent figures such as Oscar Zariski and . In 1963, Hartshorne earned his Ph.D. in mathematics from Princeton University, with a dissertation titled Connectedness of the Hilbert Scheme, supervised by John Coleman Moore and Oscar Zariski. The thesis examined the connectedness properties of the Hilbert scheme, a fundamental parameter space in algebraic geometry that parametrizes subschemes of projective space up to projective equivalence, establishing key results on its topological structure over algebraically closed fields. This work, later published in Publications Mathématiques de l'IHÉS, laid foundational insights into the irreducibility and connectedness of such schemes for curves and other varieties.

Academic Career

Early Positions

Following the completion of his Ph.D. at in 1963, with a dissertation titled Connectedness of the Hilbert Scheme under the supervision of John Coleman Moore and Oscar Zariski, Robin Hartshorne accepted a Junior Fellowship in the . This three-year appointment, spanning 1963 to 1966, enabled him to focus on independent research in amid a vibrant academic environment at Harvard. During this fellowship, Hartshorne was significantly influenced by Zariski, whose emphasis on and classical methods profoundly shaped his foundational perspectives, and by , whose work on curves and abelian varieties provided key insights into modern developments. Hartshorne's early research during the fellowship extended themes from his dissertation, exploring of schemes and moduli spaces through rigorous algebraic techniques. He also engaged in seminars and discussions that bridged classical and emerging approaches, including interactions with Zariski on connectedness theorems and preparations for broader applications in . These years at Harvard marked a transitional phase where Hartshorne honed his expertise, laying groundwork for subsequent contributions while benefiting from the department's collaborative atmosphere. In 1966, Hartshorne transitioned to a faculty role as at , where he taught undergraduate and graduate courses in and while advancing his research agenda. He was promoted to during this period, continuing until 1972. Complementing his Harvard tenure, Hartshorne spent time in studying with and , gaining exposure to sheaf and Grothendieck's revolutionary frameworks for algebraic varieties. These experiences, including potential visiting arrangements in the mid-1960s, enriched his understanding of global duality and étale methods, fostering collaborations that influenced his evolving research focus on coherent sheaves and .

Career at Berkeley

In 1972, Robin Hartshorne joined the faculty of the , in the Department of Mathematics, where he advanced through the academic ranks to become a full professor. His tenure at marked a stable and influential phase of his career, building on his earlier positions at Harvard. Hartshorne retired in 2005 and was subsequently appointed Professor Emeritus, a position he has held since then. Throughout his active years at , he made significant contributions to teaching, particularly in , developing courses that drew from his expertise in the field and served as the basis for his seminal . He also mentored a substantial number of graduate students, supervising 21 PhD dissertations between 1975 and 2003, including notable advisees such as Lawrence Ein (1981), John Olaf Brevik (1996), and Elena Drozd (2003). As Professor Emeritus, Hartshorne maintained ongoing involvement with the mathematics community, including through his departmental affiliation and contributions to the academic environment, extending at least into the . His long-term presence helped shape the department's strengths in .

Mathematical Contributions

Algebraic Geometry

Hartshorne's foundational work in algebraic geometry stemmed from his doctoral dissertation, which proved the connectedness of the parametrizing subschemes of over an . This result established that the is a connected , providing a crucial tool for studying families of subschemes and deformations in . Building on this, Hartshorne developed criteria for connectedness and normality in schemes, particularly for preschemes over algebraically closed fields. He introduced the notion of linear connectedness, where a prescheme admits a chain of linear specializations connecting any two points, and showed that this property holds for the under certain conditions. Additionally, he provided equivalent conditions for the normality of associated Grassmannians or components in the , linking topological properties to algebraic structure. These criteria extended classical notions to the scheme-theoretic setting and facilitated the study of irreducible components in moduli problems. In related work on complete intersections, he established necessary topological conditions for a subscheme to be a , including local connectedness requirements that ensure the scheme remains connected after removing singular loci. A of his contributions is the connectedness theorem, which asserts that for a Cohen-Macaulay locally of finite type over a , if the minus any closed of at least two is connected, then the entire is connected. This theorem implies that Cohen-Macaulay s that are connected in one are globally connected, offering a powerful for verifying connectedness without examining the full . It has profound implications for understanding singularities and irreducibility in projective varieties. Hartshorne's influence on modern algebraic geometry is evident in his refinements of Serre's theorems on cohomology and duality. He provided the first complete proof of Grothendieck duality, extending Serre duality from smooth projective varieties to arbitrary proper morphisms of schemes, thereby generalizing the trace map and residue pairings to a relative setting. This work clarified the cohomological dimension of algebraic varieties, showing that for a projective variety over a field, the cohomology of coherent sheaves vanishes beyond the dimension, with explicit bounds improving Serre's original finiteness results. Furthermore, his investigations into Hilbert schemes, including the connectedness of components parametrizing curves in projective three-space, have shaped the study of moduli spaces and liaison theory, highlighting obstructions and connectivity patterns that persist in contemporary research. Another significant contribution is his work on ample subvarieties, detailed in his 1973 monograph Ample Subvarieties of Algebraic Varieties. This extended the concept of ample divisors to higher-codimension subvarieties, providing criteria for ampleness and generalizations of the to ample subvarieties, which have applications in the study of embeddings and of algebraic varieties.

Other Areas

Hartshorne's expository work in classical highlights his interdisciplinary approach, connecting foundational geometric ideas with algebraic and analytic tools in . In Foundations of (1967), he developed an axiomatic framework for , drawing on models and linear to rigorize classical concepts like incidence and , thereby bridging with modern . His later book Geometry: Euclid and Beyond (2000) further exemplifies this synthesis, beginning with a critique of Euclid's Elements and before introducing coordinate geometry over fields, area calculations via dissections, and field extensions to determine constructible figures. The text extends to non-Euclidean geometries, such as through variations of the parallel postulate, and enhances discussions of Platonic solids with group-theoretic insights, linking Euclidean traditions to , , and transformation groups. These contributions, while expository, underscore Hartshorne's role in revitalizing education by integrating it with broader mathematical structures, influencing undergraduate curricula and fostering connections across disciplines.

Publications

Major Books

Robin Hartshorne's most influential monograph is , published in 1977 as volume 52 in Springer's series. This 496-page textbook introduces abstract , bridging classical intuitive notions of affine and projective varieties with modern tools such as schemes and sheaf cohomology. Its structure is divided into four chapters: the first covers affine and projective varieties, including morphisms and the ; the second introduces schemes and their properties; the third addresses sheaf cohomology and its applications to curves; and the fourth explores advanced topics like the Riemann-Roch theorem and Brill-Noether theory. The book assumes familiarity with and includes over 400 exercises to illustrate concepts and explore extensions. Widely regarded as the standard reference for graduate-level , it has shaped curricula worldwide and remains a for researchers transitioning to scheme-theoretic methods. The original hardcover edition appeared in 1977, with corrected printings through 1997 and a softcover reprint in 2010, alongside an eBook version in 2013; no major revisions or translations have been issued, though it has been reprinted multiple times to meet demand. Reception has been overwhelmingly positive, with commending its role in facilitating the shift from classical to advanced . Another foundational work is Residues and Duality (Lecture Notes in Mathematics, vol. 20, , 1966). This 423-page monograph presents the first complete proof of Grothendieck's duality theorem for of quasi-coherent sheaves with respect to proper morphisms of schemes. It introduces key concepts from derived categories and local , based on a at Harvard in 1963/64. The book has garnered over 3,000 citations and remains a foundational reference in . Foundations of Projective Geometry (W. A. Benjamin, 1967) is an undergraduate-level text that develops from synthetic axioms, covering topics like Desargues' theorem, coordinatization, and . This 167-page book provides a modern axiomatic approach and has been influential in geometry education. Ample Subvarieties of Algebraic Varieties (Lecture Notes in Mathematics, vol. 156, , 1970) explores the notion of ample subvarieties on algebraic varieties, extending classical ampleness concepts to higher dimensions.[](https://link.springer.com/book/10.1007/BF b00754994) This 136-page work includes applications to and embeddings, cited over 700 times, and is a key reference for ample divisors and bundles. Geometry: Euclid and Beyond (Undergraduate Texts in Mathematics, , 2000) is a 546-page textbook that reexamines from a modern perspective, incorporating non-Euclidean geometries, transformations, and connections to . It includes historical context, rigorous proofs, and exercises, bridging classical and contemporary for undergraduates. A significant monograph is Deformation Theory, first published in 2009 (copyright 2010) as volume 257 in the Graduate Texts in Mathematics series. This 234-page work, based on Hartshorne's 1979 Berkeley course and expanded notes from 2004–2005, provides the first comprehensive textbook treatment of deformation theory in algebraic geometry. It begins with infinitesimal deformations of schemes and modules, then progresses to global aspects, including Hilbert schemes and the cohomology of normal bundles, with numerous examples and exercises. Reviews in Monatshefte für Mathematik and Mathematical Reviews have highlighted its clarity and utility for graduate students and researchers studying families of algebraic objects. The hardcover and eBook appeared in 2009, followed by a softcover in 2012, establishing it as a key pedagogical resource in the field.

Selected Papers

In 1975, Hartshorne published "On the of Algebraic Varieties" (Publications Mathématiques de l'IHÉS, no. 45, pp. 5–99), an influential paper that establishes a purely algebraic framework for and on arbitrary schemes over fields of characteristic zero, extending classical results to singular varieties and including applications to Riemann-Roch theorems; it has been cited more than 400 times. Other notable papers include "Connectedness of the " (Publications Mathématiques de l'IHÉS, no. 29, pp. 5–48, 1966), which demonstrates the connectedness of the parameterizing subschemes of , providing essential tools for moduli problems in and cited over 300 times. Additionally, "Stable Reflexive Sheaves" (Mathematische Annalen, vol. 254, no. 2, pp. 121–176, 1980) explores the classification and stability of rank-2 reflexive sheaves on projective threefolds, linking them to Cohen-Macaulay curves and advancing the study of vector bundles; this paper has received over 900 citations.

Recognition and Legacy

Awards and Honors

In 1970, Hartshorne was awarded an Research Fellowship, recognizing his early contributions to mathematics. In 1979, he received the Leroy P. Steele Prize from the for his expository research article Equivalence relations on algebraic cycles and subvarieties of resulting from correspondences, honoring his work in . Hartshorne was elected as a of the in the inaugural class of 2013, acknowledged for his outstanding contributions to the field.

Influence on Mathematics

Hartshorne's textbook , published in 1977, has profoundly shaped the field by establishing scheme-theoretic methods as the standard framework for graduate-level instruction in . Drawing from Grothendieck's foundational work in (EGA), the book synthesizes abstract algebraic techniques with geometric intuition, making complex concepts accessible while emphasizing examples like projective spaces and curves. It has become a for students worldwide, influencing curricula at institutions such as Harvard, , and the , where it remains the primary reference for introducing schemes, , and . Through his mentorship at the , Hartshorne supervised 21 PhD students from 1975 to 2003, many of whom advanced to prominent roles in . Notable advisees include Lawrence Ein, a leading expert in higher-dimensional geometry and birational theory now at the University of Illinois at Chicago, and Mark Gross, renowned for contributions to mirror symmetry and Calabi-Yau varieties at the . Other students, such as Scott Nollet at , and Mei-Chu Chang at the , have extended Hartshorne's ideas in areas like moduli spaces and arithmetic geometry. His guidance fostered a rigorous approach to problem-solving, with collaborators and mentees crediting him for shaping global algebraic geometry research. Hartshorne's scholarly impact is evidenced by over 39,000 citations and an of 47 as of 2024, reflecting the enduring citation of his works in modern papers on derived categories and . As of 2025, the textbook's relevance persists through digital supplements, including community-sourced exercise solutions on platforms like the Stacks Project and online forums, which address gaps in computational aspects amid advances in systems. No formal new edition has been issued, but its influence endures in hybrid teaching resources, such as video lectures and interactive notes that build on its structure for contemporary topics like .

Personal Life

Family

Hartshorne married Edith Eustis Churchill on December 20, 1969, in . His wife, known as Edie Churchill Hartshorne, is an educator, psychotherapist, , and who has contributed to creating a supportive home environment during his academic pursuits. In the preface to his 1977 book , Hartshorne expressed profound gratitude to her for maintaining a warm family atmosphere while he focused on writing the manuscript. The couple has two sons, Benjamin and Jonathan Churchill Hartshorne. Their younger son, Jonathan Churchill Hartshorne, died unexpectedly at age 20 in 2007, an event that profoundly impacted the family. Edie Churchill Hartshorne chronicled the family's journey through grief in her 2008 memoir Light in Blue Shadows: The Journey from Grief to Gratitude, which explores themes of loss, healing, and spiritual growth following the tragedy. In 1972, the family relocated from the East Coast to , accompanying Hartshorne's appointment as a professor at the , where they established their long-term home.

Interests and Hobbies

Robin Hartshorne is an avid mountain climber, having participated in several notable expeditions during his younger years. As a member of the Harvard Mountaineering Club, he joined an attempt on the 22,450-foot peak Bandako in Afghanistan's in 1966, alongside fellow climbers including Bob Jahn and Sandy Merrihue. Earlier, in 1964, he attended the club's eighth biennial climbing camp in the Canadian Rockies near , where participants tackled routes in the area. These experiences reflect his broader passion for , which he has pursued as an experienced climber throughout his life. In addition to climbing, Hartshorne maintains a deep interest in music as an accomplished amateur musician, particularly on wind instruments. He has played the for many years, honing his skills alongside his academic career. During a visit to , he began studying the , a traditional bamboo flute known for its meditative and expressive tones, and he performs classical on the instrument. His engagement with shakuhachi extends to scholarly contributions, including co-translating the historical text The Hitori Mondo of Hisamatsu Fuyo with Kazuaki Tanahashi for the Annals of the International Shakuhachi Society. Hartshorne's recreational pursuits also include extensive travel, which has enriched his cultural and linguistic experiences; he speaks several foreign languages, including and , and has lectured in them. These activities underscore a well-rounded lifestyle that balances physical adventure with artistic and intellectual exploration.

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