SOPhiA 2017

Salzburgiense Concilium Omnibus Philosophis Analyticis

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Programme - Talk

Modeling Physical Reality
(Affiliated Workshop, English)

Physical science aims at a detailed description, explanation, and prediction of natural phenomena. A central tool to this endeavour are scientific models, ranging from strongly abstracting formal constructions used to map physical interactions such as the standard model of particle physics, simplifying physically implemented dynamical processes such as computer simulations, or coarse graining and lumping models as used in atmospheric physics, to merely rescaled depictions of relations at scales impossible to handle in practice, like mechanical models, say, of the solar system.
This workshop brings together researchers from fields as diverse as the philosophy of climate science, mathematics, high energy physics, gravitation, and causation. It aims to investigate, among other things, the relation between models in mathematics and physics, the prospects of causal models of physical reality, or the epistemological status of simulation models as used in high energy physics or climate research.

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Schedule.
09:00--09:10 Florian Boge: General Introduction
Short break
09:15--09:50 Charlotte Werndl: The Neglect of Initial Conditions Dependence and Initial Conditions Uncertainty in Climate Science
Short break
09:50--10:20 Niels Martens: From Models to Reality: A Plea for Caution
Short break
10:25--10:55 Paul Weingartner: A Defense for Pluralism of Causality in Physical Explanations
Coffee break
11:10--11:40 Miguel Carretero: Modeling long-scale behavior in galactic and extra-galactic systems -- The parameters of the ΛCDM model
Short break
11:45--12:15 Nina Retzlaff: A New Proposal how to Handle Counterexamples to Markov Causation à la Cartwright, or: Fixing the Chemical Factory
Short break
12:20--12:50 Laurenz Hudetz: What Makes Mathematical Structures Models?
Short break
12:55--13:25 Florian Boge: Simulation Models and Uncertain Reasoning


Abstracts.

Charlotte Werndl (Salzburg): The Neglect of Initial Conditions Dependence and Initial Conditions Uncertainty in Climate Science
The talk examines initial conditions dependence and initial conditions uncertainty for climate projections. Climate projections are often described as experiments that do not depend on the initial conditions and that estimate the forced response of the system. Although a prominent claim, it is hardly ever scrutinized, and this talk aims to fill this gap. The conclusion will be that evidence does not support the independence of projections on initial conditions and that thus the forced response of a system is ill-defined. Concerning initial conditions uncertainty, the main contribution will be to identify three kinds of initial conditions uncertainty. The first kind (the one usually discussed) is the uncertainty associated with the spread of the ensemble simulations. The second kind of initial conditions uncertainty arises because the theoretical initial ensemble (relative to which a projection is defined) cannot be used in calculations and has to be approximated by finitely many initial states. The third kind of initial conditions uncertainty arises because of uncertainties in the construction process of the possible initial conditions. To my knowledge, the second and third kinds of uncertainty have hardly been discussed in the philosophy of climate science before.

Niels Martens: From Models to Reality: A Plea for Caution
The philosophy of physics literature is riddled with examples that trivialize reading off the physical content from a set of (symmetry-related) models of a theory. For instance, the claim that, since a velocity boost forms a symmetry mapping between models of Newtonian Gravity, Newton should have immediately renounced belief in absolute velocities, even though a revised theory formulated merely in terms of relative velocities was not available until much later. I disagree. I will follow a recent trend inspired by Mĝller-Nielsen in advocating caution when drawing immediate metaphysical conclusions from (symmetries of) models of a theory. I will illustrate several pitfalls using as a case study models of Newtonian Gravity related by (mass) scaling transformations.

Paul Weingartner: A Defense for Pluralism of Causality in Physical Explanations
Abstract coming soon.

Miguel Carretero: Modeling long-scale behavior in galactic and extra-galactic systems -- The parameters of the ΛCDM model
The so-called Standard Model of Cosmology or ΛCDM has been enjoying great successes during the last decades. Based on the assumption of a cold dark matter particle and the effect of the dark energy, which together conform the 96% of the total energy content of the known universe, the model has been able to reproduce the long-scale behavior in galactic and extra-galactic systems as well as offering a plausible depiction of the universe's evolution. However, it depends on six free-parameters that are usually regarded by some as a weakness since they have to be chosen carefully. In addition, modelizing different systems involves the necessity of choosing, for instance, different distribution profiles in order to make the model fit with the data. How do we reconcile this freedom with some of the existence claims cosmologists hold, for instance, the existence of dark matter or dark energy?

Nina Retzlaff: A New Proposal how to Handle Counterexamples to Markov Causation à la Cartwright, or: Fixing the Chemical Factory
Cartwright (1999) attacked the causal Markov condition (CMC) by providing a counterexample in which a common cause does not screen off its effects: the chemical factory. We suggest a new way to handle counterexamples to CMC such as Cartwright's. We argue that these scenarios feature non-causal dependencies of a certain kind. We then develop a representation of this specific kind of non-causal dependence that allows for modeling the problematic scenarios in such a way that CMC is not violated anymore and compare our solution to a recent proposal how to handle the problematic scenarios put forward by Schurz (forthcoming).

The talk presents joint work with Alexander Gebharter, postdoc at the DCLPS, University of Düsseldorf. For more information, see www.alexandergebharter.com.

Laurenz Hudetz: What Makes Mathematical Structures Models?
In order to apply a mathematical model to a real-world system, it has to be endowed with an empirical interpretation; and if a model is furthermore supposed to tell us something about unobservable aspects of the world and its structure, it has to be endowed with an ontological interpretation that goes beyond the empirical. In this talk, I give a rigorous account of what it is to endow mathematical structures with an empirical and ontological interpretation, i.e. what it is that makes mathematical structures models of a part of the world.
First, I explicate the notion of an uninterpreted formal framework and explain how uninterpreted formal frameworks can be extended to pre-interpreted frameworks. Second, I show how pre-interpreted frameworks can be connected to data. For this purpose, I draw on the theory of relational databases to clarify what data collections and data schemas are. This leads to an explication of the notion of empirically interpreted frameworks. Third, I introduce the notion of an ontological conceptual schema in order to explain how empirically interpreted frameworks can be extended to ontologically interpreted frameworks.
I also discuss how my proposal is related to logical empiricist as well as structuralist accounts of interpretation. I argue that my proposal preserves insights from both traditions while improving on each of these accounts in important aspects.

Florian Boge: Simulation Models and Uncertain Reasoning
Computer simulations (CS) play an integral role in modern science. They are used, e.g., to model and investigate properties of the atmosphere in climate science, investigate the properties of cars, buildings, and other pieces of engineering during the construction phase, and they are involved in the design, execution, and evaluation of highly complex experiments in high energy physics. While it has sometimes been disputed that philosophizing about them can bring about any significant new insights - which may be correct to the extent that the epistemological issues arising in the context of CS are strongly connected to epistemological issues known from other contexts - there still remain some specific issues concerning the role and status of CS in actual research. Most importantly, views about what precisely CS are, epistemologically speaking, strongly contrast or even apparently contradict each other.
In my talk, I will pursue two central aims: I will (i) consider two strongly contrasting views of simulations and demonstrate that these are ultimately complementary, not mutually exclusive, and both have their righteous place in actual scientific practice. The two contrasting views concern, in particular, the view of CS as arguments, developed in papers by Beisbart and Beisbart and Norton, and the view of CS as comparable to or epistemically on par with experiments, as defended notably by M. Morrison. I will then (ii) argue that the main 'epistemic thrust' of CS stems from the inferences they promote, not from the inferences that they (arguably) 'are'. These former inferences, as I will argue, constitute an instance of abductive rather than deductive reasoning, and the specific kind of adbuction invloved makes it understandable how CS can be both, a 'kind of experiment' and a 'kind of argument'.

Organisation: Florian Boge (BU Wuppertal)

Download the workshop poster here.

For further information please visit the workshop website.

Chair: Florian Boge
Time: 09:00-13:00, 13 September 2017 (Wednesday)
Location: SR 1.007

Florian Boge 
(BU Wuppertal, Germany)

Florian Boge is a postdoctoral researcher in the DFG funded interdisciplinary project The Epistemology of the Large Hadron Collider and currently stationed at BU Wuppertal. He finished his Dr. Phil. studies at the University of Cologne in January 2017, with a thesis on epistemic and ontologcial interpretations of quantum theory, and with a short stay in Oxford as a recognised student and academic visitor (trinity 2016). He also finished a degree in physics (BSc) at University of Cologne in 2016, with a thesis on probabilities in the many worlds interpretation of quantum theory. His BA/MA research was conducted at HHU Düsseldorf/the Düsseldorf center for Logic and Philosophy of Science (DCLPS), where he also occupied several positions ranging from student assistant to research staff member. The philosophical theses concluding these studies were concerned with skepticism (BA) and trope theory (MA) respectively.

Miguel-Ángel Carretero-Sahuquillo 
(BU Wuppertal, Germany)

Miguel-Ángel Carretero-Sahuquillo holds a BSc in Physics and a MSc in Theoretical Physics from the Universitat de València, Spain, with a MSc Thesis on MOND and a relativistic extension. His interests range between cosmology and the current status of theoretical particle physics. Early on, he developed a great interest for philosophy of science which has led him to pursue a PhD in Philosophy. Currently he is part of the ''Epistemology of the LHC'' project as a member of the subproject ''the hierarchy, ?ne-tuning, and naturalness problem from a philosophical perspective'', hosted by the Bergische Universität Wuppertal and funded by the DFG.

Laurenz Hudetz 
(University of Salzburg , Austria)

Laurenz Hudetz is a PhD student and research assistant at the Department of Philosophy of the University of Salzburg. He will take up an assistant professorship at the Department of Philosophy, Logic and Scientific Method at the London School of Economics in Fall 2018. His area of specialisation lies in the intersection of philosophy of science and mathematical logic, with a focus on reduction, equivalence and interpretation of scientific theories.

Niels Martens 
(RWTH Aachen, Germany)

Niels Martens is a postdoctoral researcher in philosophy of physics at the RWTH Aachen, as part of the interdisciplinary research unit ''Epistemology of the LHC''. His project concerns issues of explanatory power and underdetermination surrounding the dark matter vs. modified gravity debate. He has recently submitted his DPhil (= PhD) thesis to the University of Oxford, titled ''Against Comparativism about Mass in Newtonian Gravity -- a Case Study in the Metaphysics of Scale''. He holds an MSt degree in philosophy of physics from the University of Oxford, and a MSc degree in theoretical physics from the University of Groningen. The main question that keeps him up at night is ''What is this thing called spacetime?''.

Nina Retzlaff 
(Heinrich Heine University Düsseldorf, Germany)

Nina Retzlaff is a research fellow at the Düsseldorf center for Logic and Philosophy of Science (DCLPS) at the Heinrich Heine University Düsseldorf. She studied mathematics with a minor in biology at the University of Cologne and is interested in quantum mechanics. Her research interests lie in philosophy of science and metaphysics, especially in causality within quantum mechanics. In the context of her PhD thesis, she is investigating causality with regard to quantum mechanics.

Paul Weingartner 
(University of Salzburg, Austria)

Paul Weingartner is professor emeritus of philosophy (University Salzburg). 1961 Doctor of philosophy (major: philosophy, minor: physics) at the University of Innsbruck. As research fellow he was studying with Popper, Britzlmayr and Stegmüller. 1965 assistant professor of philosophy (venia legendi), University of Graz. 1966 assistant professor of philosophy (venia legendi), University of Salzburg. 1966 Kardinal Innitzer Price for Philosophy of the year. 1970 Associate Professor of philosophy at the University of Salzburg. 1971 Full Professor of philosophy at the University of Salzburg. 1995 Honorary Doctorate (Dr. h.c.) from Marie Curie Sklodowska University, Lublin (Poland). In 1997 he received a Membership of the New York Academy of Sciences. His research areas are philosophy of science, logic and philosophy of religion, with a particular focus on laws of nature, causality, truth, necessity and possibility. He published 10 Books, 36 editions and more than 160 articles in renowned journals like the Journal of Symbolic Logic, Journal of Philosophical Logic, Grazer Philosophische Studien, Erkenntnis, and Philosophia Nauralis. In recent times he also published about God, theory of conscience and the natural law in the philosophy of Thomas Aquinas.

Charlotte Werndl 
(University of Salzburg, Austria)

Charlotte Werndl is Professor of Logic and Philosophy of Science at the Department of Philosophy at the University of Salzburg, Austria, a Visiting Professor at the Centre for Philosophy of Natural and Social Science (CPNSS) and an affiliate of the Grantham Research Institute on Climate Change and the Environment at the London School of Economics, at the London School of Economics. Previously she was an Associate Professor at the Department of Philosophy, Logic and Scientific Method at the London School of Economics and before that a research fellow at the University of Oxford. She completed a PhD in Philosophy at the University of Cambridge in 2010 and master?s degrees both in mathematics and philosophy at the University of Salzburg in 2006. She is an editor of the Review of Symbolic Logic and an associate editor of the European Journal for the Philosophy of Science and serves on a number of editorial and advisory boards. She has published papers on climate change, statistical mechanics, mathematical knowledge, chaos theory, predictability, confirmation, evidence, determinism, indeterminism, observational equivalence and underdetermination. Her current work focuses on the philosophy of climate science, evidence and the philosophy of statistics and the foundation of statistical mechanics.

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