Age, Biography and Wiki

Piers Coleman was born on 13 February, 1958 in Cheltenham, England, is a British-American physicist. Discover Piers Coleman's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is he in this year and how he spends money? Also learn how he earned most of networth at the age of 66 years old?

Popular As N/A
Occupation N/A
Age 66 years old
Zodiac Sign Aquarius
Born 13 February, 1958
Birthday 13 February
Birthplace Cheltenham, England
Nationality United Kingdom

We recommend you to check the complete list of Famous People born on 13 February. He is a member of famous with the age 66 years old group.

Piers Coleman Height, Weight & Measurements

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Piers Coleman Net Worth

His net worth has been growing significantly in 2023-2024. So, how much is Piers Coleman worth at the age of 66 years old? Piers Coleman’s income source is mostly from being a successful . He is from United Kingdom. We have estimated Piers Coleman's net worth, money, salary, income, and assets.

Net Worth in 2024 $1 Million - $5 Million
Salary in 2024 Under Review
Net Worth in 2023 Pending
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Timeline

1958

Piers Coleman (born 1958) is a British-born theoretical physicist, working in the field of theoretical condensed matter physics.

Coleman is professor of physics at Rutgers University in New Jersey and at Royal Holloway, University of London.

1960

In the 1960s the physicist John Hubbard introduced a mathematical operator, the "Hubbard operator" for describing the restricted fluctuations in valence between two charge states of an ion.

1976

Coleman was raised in Cheltenham, England, where he attended Cheltenham Grammar School, graduating in 1976.

He completed his undergraduate education at Trinity College, Cambridge, pursuing the Natural Sciences Tripos and the Mathematics Tripos part III under the mentorship of Gilbert Lonzarich.

1980

In 1980 he won a Jane Eliza Procter Fellowship to Princeton University where he studied theoretical condensed matter physics with Philip Warren Anderson.

Contemporaries in the Princeton graduate physics program included Gabriel Kotliar, Cumrun Vafa, Nathan Mhyrvold and Jennifer Chayes.

1983

He was awarded a Junior Research Fellowship at Trinity College, Cambridge, which he held from 1983 to 1988.

In 1983 Coleman invented the slave boson formulation of the Hubbard operators, which involves the factorization of a Hubbard operator into a canonical fermion and a boson.

The use of canonical fermions enabled

the Hubbard operators to be treated within a field-theoretic approach, allowing the first mean-field treatments of the heavy fermion problem.

The slave boson approach has since been widely applied to strongly correlated electron systems, and has proven useful in developing the resonating valence bond theory (RVB) of high temperature superconductivity and the understanding of heavy fermion compounds.

At Rutgers, he became interested in the interplay of magnetism with strong electron correlations.

With Natan Andrei he adapted the resonating valence bond theory of high temperature superconductivity to heavy fermion superconductivity.

1984

He was a postdoctoral fellow at the Kavli Institute for Theoretical Physics Santa Barbara from 1984 to 1986.

1987

He joined the faculty at Rutgers University in 1987.

1990

In 1990 with Anatoly Larkin and Premi Chandra, they explored the effect of thermal and zero-point magnetic fluctuations on two dimensional frustrated Heisenberg magnets.

Conventional wisdom maintained that because of the Mermin–Wagner theorem, two dimensional Heisenberg magnets are unable to develop any form of long-range order.

Chandra, Coleman and Larkin demonstrated that frustration can lead to a finite temperature Ising phase transition into a striped state with long range spin-nematic order.

This kind of order is now known to develop in high temperature iron-based superconductors.

Working with Alexei Tsvelik, Coleman carried out some of the earliest applications of Majorana Fermions to condensed matter problems.

In the late 1990s, Coleman became interested in the breakdown of Fermi liquid behavior at a quantum critical point.

Working with Gabriel Aeppli and Hilbert von Löhneysen, they demonstrated established the presence of local quantum critical fluctuations in the quantum critical metal CeCu6-xAux, identified as a consequence of the break-down of the Kondo effect that accompanies the development of magnetism.

This led to the prediction that the Fermi surface will change discontinuously at a quantum critical point, a result later observed in field tuned quantum criticality in the material YbRh2Si2 and in pressure-tuned quantum criticality in the material CeRhIn5.

After the discovery of topological insulators, Coleman became interested in whether topological insulating behavior could exist in materials with strong correlation.

1992

In 1992,

Coleman, Miranda and Tsvelik examined the application of the Majorana representation of spins to the Kondo lattice, showing that if local moments fractionalize as Majorana, rather than Dirac fermions, the resulting ground-state is an odd-frequency superconductor.

Working with Andrew Schofield and Alexei Tsvelik, they later advanced a model to account for the unusual magneto-resistance properties of high temperature superconductors in their normal state, in which the electrons fractionalize into

Majorana fermions.

2008

In 2008, the team of Maxim Dzero, Kai Sun and Victor Galitski and Piers Coleman predicted that the class of Kondo insulators can develop a topological ground-state, proposing samarium hexaboride (SmB6) as a Topological Kondo Insulator.

The observation of the development of robust conducting surface states in SmB6 is consistent with this early prediction.

Notable former research students and postdoctoral fellows in his group include Ian Ritchey, Eduardo Miranda, Andrew Schofield, Maxim Dzero, Andriy Nevidomskyy and Rebecca Flint

Piers Coleman is married to the American theoretical physicist Premala Chandra and they have two sons.

He is the elder brother of musician and composer Jaz Coleman.

Along with his younger brother Jaz, Coleman worked on a concert and physics outreach website Music of the Quantum.

2010

Since 2010 he has also held the position of University of London Chair of Theoretical Condensed Matter Physics at Royal Holloway, University of London.

2011

In 2011, Piers Coleman replaced David Pines as a director of the Institute for Complex Adaptive Matter.

Coleman is known for his work related to strongly correlated electron systems, and in particular, the study of magnetism, superconductivity and topological insulators.

He is the author of the popular text Introduction to Many-Body Physics.

In his early career at Princeton University Coleman worked on the problem of valence fluctuations in solids.