David W. Snoke is a

physics Physics is the natural science that studies matter, its fundamental constituents, its motion and behavior through space and time, and the related entities of energy and force. "Physical science is that department of knowledge which r ...

professor at the

University of Pittsburgh The University of Pittsburgh (Pitt) is a public state-related research university in Pittsburgh, Pennsylvania. The university is composed of 17 undergraduate and graduate schools and colleges at its urban Pittsburgh campus, home to the univers ...

in the Department of Physics and Astronomy. In 2006 he was elected a

Fellow A fellow is a concept whose exact meaning depends on context. In learned or professional societies, it refers to a privileged member who is specially elected in recognition of their work and achievements. Within the context of higher education ...

of the American Physical Society "for his pioneering work on the experimental and theoretical understanding of dynamical optical processes in semiconductor systems." In 2004 he co-wrote a controversial paper with prominent

intelligent design Intelligent design (ID) is a pseudoscientific argument for the existence of God, presented by its proponents as "an evidence-based scientific theory about life's origins". Numbers 2006, p. 373; " Dcaptured headlines for its bold attempt to ...

proponent

Michael Behe Michael Joseph Behe ( ; born January 18, 1952) is an American biochemist and author, widely known as an advocate of the pseudoscientific principle of intelligent design (ID). He serves as professor of biochemistry at Lehigh University in Pennsy ...

. In 2007, his research group was the first to report Bose-Einstein condensation of polaritons in a trap. David Snoke and theoretical physicist Jonathan Keeling recently published an article announcing a new era for polariton condensates saying that polaritons are arguably the "...best hope for harnessing the strange effects of quantum condensation and superfluidity in everyday applications."

Academic career

Snoke received his bachelor's degree in physics from

Cornell University Cornell University is a private statutory land-grant research university based in Ithaca, New York. It is a member of the Ivy League. Founded in 1865 by Ezra Cornell and Andrew Dickson White, Cornell was founded with the intention to tea ...

and his PhD in physics from the

University of Illinois at Urbana-Champaign The University of Illinois Urbana-Champaign (U of I, Illinois, University of Illinois, or UIUC) is a public land-grant research university in Illinois in the twin cities of Champaign and Urbana. It is the flagship institution of the Univ ...

. He has worked for

The Aerospace Corporation The Aerospace Corporation is an American nonprofit corporation that operates a federally funded research and development center (FFRDC) in El Segundo, California. The corporation provides technical guidance and advice on all aspects of space mi ...

and was a visiting scientist and Fellow at the

Max Planck Institute Max or MAX may refer to: Animals * Max (dog) (1983–2013), at one time purported to be the world's oldest living dog * Max (English Springer Spaniel), the first pet dog to win the PDSA Order of Merit (animal equivalent of OBE) * Max (gorilla) ...

. His experimental and theoretical research has focused on fundamental quantum mechanical processes in semiconductor optics, i.e. phase transitions of electrons and holes. Two main thrusts have been Bose-Einstein condensation of

excitons An exciton is a bound state of an electron and an electron hole which are attracted to each other by the electrostatic Coulomb force. It is an electrically neutral quasiparticle that exists in insulators, semiconductors and some liquids. The ...

and

polaritons In physics, polaritons are quasiparticles resulting from strong coupling of electromagnetic waves with an electric or magnetic dipole-carrying excitation. They are an expression of the common quantum phenomenon known as level repulsion, also ...

. He has also had minor efforts in numerical biology, and has published on the topic of the interaction of science and theology.

Bose-Einstein Condensation of Polaritons

In 2007, Snoke's research group at the

used stress to trap polaritons in confined regions, similar to the way atoms are confined in traps for

Bose–Einstein condensation Bose–Einstein may refer to: * Bose–Einstein condensate ** Bose–Einstein condensation (network theory) * Bose–Einstein correlations * Bose–Einstein statistics In quantum statistics, Bose–Einstein statistics (B–E statistics) describe ...

experiments. The observation of polariton condensation in a trap was significant because the polaritons were displaced from the laser excitation spot, so that the effect could not be attributed to a simple nonlinear effect of the laser light. Later milestones from Snoke and collaborators include showing a clear difference between polariton condensation and standard lasing, showing quantized circulation of a polariton condensate in a ring, and the first clear demonstration of Bose-Einstein condensation of polaritons in equilibrium (see Figure 1), in collaboration with the Keith Nelson group at MIT. Prior to this result, polariton condensates were always observed out of equilibrium. For a general discussion of Bose-Einstein condensation of polaritons, see this page.

Nonequilibrium dynamics

The basic questions of how systems out of equilibrium approach equilibrium (“equilibration”, or “thermalization”) have involved longstanding deep questions of physics, sometimes called the thermodynamic “

arrow of time The arrow of time, also called time's arrow, is the concept positing the "one-way direction" or "asymmetry" of time. It was developed in 1927 by the British astrophysicist Arthur Eddington, and is an unsolved general physics question. This ...

,” with debates going back to

Boltzmann Ludwig Eduard Boltzmann (; 20 February 1844 – 5 September 1906) was an Austrian physicist and philosopher. His greatest achievements were the development of statistical mechanics, and the statistical explanation of the second law of thermodyn ...

. In 1989 Snoke was one of the first to perform simulations of the equilibration of a Bose-Einstein condensate, using numerical solution of the quantum Boltzmann equation . In 1994 Snoke showed agreement of time-resolved experimental measurements of a particle distribution to solution of the quantum Boltzmann equation . In 2012 he and theorist Steve Girvin published a seminal paper on the justification of the Second Law of Thermodynamics based on analysis of the quantum Boltzmann equation, which has impacted the philosophy of the Second Law. Other work by Snoke has included nonequilibrium dynamics of electron plasma and the Mott transition from exciton gas to electron-hole plasma.

Numerical biology

In 2004, Snoke co-authored an article with

, a senior fellow of the Discovery Institute's Center for Science and Culture, in the scientific journal ''Protein Science'', which received widespread criticism. Snoke's contribution to the paper was an appendix which verified the numerical results with analytical calculations that showed the relevant power law, namely that for a novel feature requiring multiple neutral mutations, the time to fixation has a sublinear dependence on population size. Behe has stated that the results of the paper support his notion of irreducible complexity, based on the calculation of the probability of mutations required for evolution to succeed. However, the published version did not address the concept directly; according to Behe, all references to irreducible complexity were eliminated prior to the paper's publication at the behest of the reviewers. Michael Lynch authored a response, to which Behe and Snoke responded. ''Protein Science'' discussed the papers in an editorial. ''Protein Science'' received letters that "contained many points of disagreement with the Behe and Snoke article", including the points that: The paper's assumptions have been severely criticised and the conclusions it draws from its mathematical model have been both criticised and contradicted: * An essay criticised the paper for an "over-simplified the process, resulting in questionable conclusions", that " eir assumptions bias their results towards more pessimistic numbers", including one assumption that is "probably false under all circumstances", another that is "probably false as a general rule" and assuming "much too high" a level of substitutions that would destroy the protein's function. It concludes " d ironically, despite these faulty assumptions, Behe and Snoke show that the probability of small multi-residue features evolving is extremely high, given the types of organisms that Behe and Snoke's model applies to." * More recent research suggests that Behe and Snoke's model, and even Lynch's response, may have been "substantial underestimates" "of the rate of obtaining an adaptive combination of mutations". * Biochemical analysis of the question has supported an orthodox evolutionary view and rejected Behe and Snoke's approach as an "unreasonable model which assume 'leaps in thin air', such as the evolution of completely novel activities via multiple and simultaneous amino acid changes". On May 7, 2005, Behe described the paper in presenting arguments for irreducible complexity in his testimony at the Kansas evolution hearings. At the ''

Kitzmiller v. Dover Area School District ''Kitzmiller v. Dover Area School District'', 400 F. Supp. 2d 707 (M.D. Pa. 2005) was the first direct challenge brought in the United States federal courts testing a public school district policy that required the teaching of intelligent design ...

'' trial later that year it was the one article referenced by both Behe and Scott Minnich as supporting intelligent design. In his ruling, Judge Jones noted that "A review of the article indicates that it does not mention either irreducible complexity or ID. In fact, Professor Behe admitted that the study which forms the basis for the article did not rule out many known evolutionary mechanisms and that the research actually might support evolutionary pathways if a biologically realistic population size were used." In 2014 David Snoke, along with coauthors Jeffrey Cox and Donald Petcher, published a numerical study of the evolution of novel structures, in the journal Complexity. The model claimed to address the fundamental problem of the tradeoff of the cost of allowing novel structures which are not yet functional, versus the benefit of the eventual new function.

Science and theology

His book, ''A Biblical Case for an Old Earth'' (Baker Books, 2006) was described in a review by Law Professor David W. Opderbeck, in the American Scientific Affiliation's ''Perspectives on Science and Christian Faith'' as "succeed ngadmirably" in "establish ngthat the 'day-age' view is a valid alternative for Christians who hold to biblical inerrancy", but as "less persuasive" at "argu ngfor a concordist understanding of the Genesis texts and modern science." Snoke was elected a Fellow of the American Scientific Affiliation in 2006. In 2014 he published a review article for the Discovery Institute, arguing that the prevailing paradigm of modern systems biology favors an intelligent design perspective, namely that systems biologists commonly assume a “good design” paradigm.

Bibliography

* ''Solid State Physics: Essential Concepts'', published by Addison-Wesley (2008).
2nd edition, 2020
* ''A Biblical Case for an Old Earth'', published by Baker Books (2006). * ''Natural Philosophy: Physics and Western Thought'', distributed by Access Research Network (2003). * as editor with Allan Griffin and Sandro Stringari: ''Bose–Einstein Condensation'', published by Cambridge University Press (1996). ; * with : ''Bose-Einstein Condensation of Excitons and Biexcitons: and Coherent Nonlinear Optics with Excitons'', published by Cambridge University Press (1999). ; * as editor with Nick P. Proukakis and Peter B. Littlewood: ''Universal Themes of Bose-Einstein Condensation'', published by Cambridge University Press (2017). ;

References

External links

Snoke Lab
– Official website * * {{DEFAULTSORT:Snoke, David Year of birth missing (living people) Living people 21st-century American physicists University of Pittsburgh faculty Grainger College of Engineering alumni