Philosophy of Science, 78 (December 2011) pp. 000–000. 0031-8248/2011/7805-0013$10.00 Copyright 2011 by the Philosophy of Science Association. All rights reserved. Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ 1 Is There a Compelling Argument for Ontic Structural Realism? Matteo Morganti† Structural realism first emerged as an epistemological thesis aimed to avoid the so- called pessimistic metainduction on the history of science. Some authors, however, have suggested that the preservation of structure across theory change is best explained by endorsing the metaphysical thesis that structure is all there is. Although the possibility of this latter, ‘ontic’ form of structural realism has been extensively debated, not much has been said concerning its justification. In this article, I distinguish between two arguments in favor of ontic structural realism that can be reconstructed from the literature and find both of them wanting. 1. Introduction. The fundamental intuition underpinning scientific real- ism is expressed by the so-called no-miracle argument (NMA; Putnam 1975, 73), according to which the success of science is to be explained in terms of the (approximate) truth of scientific theories.1 Standard object- oriented realism has it that successful theories are (approximately) true descriptions of individual objects that exist mind-independently and of their properties. The pessimistic metainduction (PMI) on the history of science (Laudan 1981), however, threatens to sever the link between suc- cess and truth by pointing to past scientific theories that were successful to some extent but are now considered false. Structural realism (SR) attempts to reestablish the connection between success and truth by pointing to the structural continuity that exists be- tween (some parts of some) subsequent theories across theory change. SRists propose that we take ( preserved—perhaps via some correspon- dence principle) structure as the (approximately) true part of such theories. †To contact the author, please write to: Department of Philosophy, University of Rome, Via Ostiense 234, 00144 Rome, Italy; e-mail: mmorganti@uniroma3.it. 1. Whether there is a full-scale argument or just an intuition is open to debate, but this is not important for present purposes. q1 q2 mailto:mmorganti@uniroma3.it 2 MATTEO MORGANTI Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ Epistemic structural realism (ESR; Worrall 1989) intends this as an epis- temological position, to the effect that we can be realists about whatever is described by the (preserved) mathematical structure of our theories. Ladyman (1998) introduced instead ontic structural realism (OSR), ac- cording to which structure is not only all we can be realist about but also all there is. In the past decade or so, the latter idea has been developed further and has become increasingly fashionable. On the one hand, OSRists have argued that (1) it is possible to conceive of the world in structural terms, as there is nothing that remains unaccounted for when one subscribes to a structuralist ontology. On the other hand, OSRists have also contended that (2) scientific realists should endorse OSR, as a careful consideration of the best available scientific theories lends stronger support to OSR than to other noninstrumentalist positions. The discussion of 1 has occupied most of the literature, and it appears fair to say that criticisms aiming to show that the proposed ontology is unworkable do not cause too much trouble for OSRists. Relations—and, consequently, structures—can be primitive (Mertz 2003), and a plausible structural reconstruction of persistence, change, and causality can be pro- vided (French 2003). Moreover, the claim being put forward (in the great majority of cases, at least) is not that the world is a mathematical structure and, thus, that charges of conflating the mathematical and the physical (Cao 2003) are off the mark. As for the objection that OSR applies only in a very limited field, it has also been answered—by extending OSR to domains other than physics (Ladyman and Ross 2007; Kincaid 2008; Ross 2008). However, much less has been said about 2—that is, about the justifi- cation for OSR. To fill this gap, it is essential, first of all, to analyze the relationship between ESR and OSR. 2. The Relationship between ESR and OSR. One may be inclined to believe that ESR is a stronger claim than OSR on the basis that it requires com- mitment both to structure—that is, relations—and to individuals (possibly, with monadic properties) bearing those relations. Worrall (1989) does indeed echo Poincaré (1905/1952) in claiming that relations are all we know but that individual objects, which ‘Nature will hide forever from our eyes’, exist in addition to relations. However, ESR is a purely epistemological thesis concerning the preservation of structure across theory change and its use- fulness for avoiding the PMI. And the Worrall-Poincaré line of thought follows from an adherence to common sense, which is natural only if one refrains in this way from asking metaphysical questions. In other words, ONTIC STRUCTURAL REALISM? 3 Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ ESR does not rely in any way on a ‘positive’ ontological commitment to the existence of objects.2 On the other hand, supporters of OSR have argued that since the basic assumption underlying SR is that we can know structure only, we should adopt a structuralist ontology if only not to create an unacceptable gap between epistemology and metaphysics. However, setting aside the fact that— to repeat—the realist does not need to say anything about metaphysics at all, it is essential to notice that the elements preserved across theory change are (or, at least, might be) different from those invoked by OSRists. The former are whatever properties (not necessarily limited to polyadic relations) are described by the mathematical structures that get preserved across theory change. The latter are, instead, genuine relations and of a special kind (as we shall see in more detail shortly): those that play essential roles in defining specific theoretical descriptions of things, independently of previous theories (this will become clearer in what follows). In fact, that the epistemic element and the metaphysical element (may) play distinct roles is something that at least some OSRists openly acknowledge (French 2006, 173). Moreover, even assuming that structural preservation suggests a structuralist ontology of the kind envisaged by OSRists, the former is not a sufficient basis for the latter— for filling the alleged gap between epistemology and metaphysics exclusively on the basis of contingent facts about what got preserved in the history of science may well lead one to ignore important metaphysical elements. In addition to the historical evidence of continuity pointed at to neutralize the PMI, therefore, a consideration of the metaphysical import of our best current theories is also required if the move from the epistemological to the meta- physical level is to be made. As things stand, then, it seems fair to claim that OSR is in fact stronger and more committing than ESR. This is because it amounts to a conjunction of (i) an epistemological claim of preservation of structure across theory change (the ‘core’ structural realist thesis aimed to defuse the PMI) plus (ii) a form of eliminativist metaphysics that is an independent addition to i in the sense of being justified independently of the evidence coming from the history of science.3 3. The Argument from Underdetermination. In the early years of OSR, the argument provided in support of its eliminativist metaphysical com- 2. This is why it has been suggested (Morganti 2004) that ESR is best understood as agnostic about the existence of individual relata over and above the preserved structure. 3. Intermediate, or moderate, versions of SR—according to which relata and relations are (at least in some cases) metaphysically on par in terms of ontological priority (see, e.g., Esfeld and Lam 2008)—gain plausibility only to the extent that OSR does. Hence, these will not be explicitly considered here. q3 q4 4 MATTEO MORGANTI Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ ponent, mainly by French and Ladyman (Ladyman 1998; French and Ladyman 2003), was based on an alleged underdetermination in the onto- logical interpretation of nonrelativistic quantum mechanics. It can be reconstructed as follows: 1. The existence of compelling reasons and of a valid alternative is a necessary requisite for the modification of entrenched metaphysical beliefs. 2. Our entrenched metaphysical view of the material world is object based. 3. Postulating objects as fundamental entities leads to a problematic metaphysical underdetermination (between individual objects and nonindividual objects) in the ontological interpretation of quantum mechanics—which is a fundamental theory in current physics, and certainly one that realists need to take into account. 4. A structuralist reconstruction of the quantum domain, according to which objects are not fundamental, is possible. 5. A structuralist reconstruction of material objects gets rid of the underdetermination mentioned in 3 and, thus, satisfies 1. ∴ There are compelling reasons for adopting a structuralist meta- physics.4 Premise 2 is uncontroversial, and premise 4 has been assumed to be un- problematic in this article. As for premise 1, it appears quite sensible and at least one respected OSRist does openly accept it (French 2006, 177). What about the other premises? The claim in premise 3 has to do with the fact that quantum particles have features that make them strikingly different from classical particles and the paradigmatic individual objects of everyday life. They do not obey the Leibnizian Principle of the Identity of the Indiscernibles (PII), 4. Notice that although ESR relies on preserved structure in general and can point to particular historical cases, OSR needs instead, as long as it is justified along the lines being considered here, a specific realist attitude with respect to a specific theory— which, incidentally, is the object of heavy philosophical dispute. Obviously enough, realism about quantum mechanics cannot, in turn, be based on OSR, on pain of circularity. In view of this, OSR appears parasitic on ESR (other realist positions, we will assume here, having been ruled out on the basis of the PMI). One may complain that one should be allowed to just endorse a generic ‘realist stance’ and then specify further what form of realism is best justified. To allow this, however, would mean to ignore the strength of the PMI, which, by putting the NMA into doubt, makes such a generic realist stance unviable even within realist circles. Hence, ESR must indeed be presupposed by OSRists. Incidentally, this lends further support to the view of the relationship between ESR and OSR argued for in the previous section. ONTIC STRUCTURAL REALISM? 5 Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ as they can have all the same properties,5 and they are ‘indistinguishable’— that is, very roughly, while there are two ways in which two coins can be one heads-up and the other tails-up, there is only one way in which two fermions can be one spin-up and the other spin-down. It allegedly follows from this either that particles are nonindividuals—they do not have well- defined identities6—or that they are individuals whose individuality is not analyzable in terms of qualitative features (and is provided, instead, by bare particulars—‘haecceitates’ or what have you) and whose statistical behavior is due to some specific nonclassical aspect of the relevant do- main.7 The nonindividuality option appears naturally to explain the im- possibility of individuation via description or direct reference and the peculiarity of quantum statistics (‘no identities to be permuted’). The individuality view, on the other hand, agrees with common sense and with the ontological presuppositions that hold true in the classical domain. According to OSRists, there are no conclusive arguments in favor of either option (rather, there are problems on both sides), but the meta- physical dilemma can be dissolved altogether by opting for a structuralist perspective that posits relations, not objects, as fundamental.8 However, consider again the two metaphysical ‘packages’ just identified. To be sure, each one of them meshes better with some specific metaphysical theses about objects, properties, and identity conditions than with others. And, indeed, it is equally uncontroversial that there is no way to choose one package, with its related set of metaphysical theses, rather than another exclusively on the basis of the available data. But this is not a problem for the typical metaphysician. For, far from expecting to be able to extract well-defined metaphysical theses from the best-available scientific descrip- tions of things, the typical metaphysician always anticipates that this is normally not the case and that other factors will have to be brought to 5. This claim is in need of qualification, as we will see in sect. 4. This is immaterial to the reconstruction of the argument from underdetermination. 6. On what seems to be the most plausible interpretation, one means by “particles are nonindividuals” that they are not basic ontological constituents but, rather, ‘derivative’ manifestations of something more fundamental: for example, one might say that a system of two indiscernible bosons is in fact a bosonic field with a certain ‘two-unit’ perturbation at a given point. (The more fundamental something need not be under- stood structurally: an ontology without individuals is not ipso facto an ontology of relations only.) 7. This can be achieved in a number of ways (none of them absolutely uncontroversial, of course); for a discussion of them—and a proposal—see Morganti (2009). 8. This is so, essentially, because if objects are derivative on structures, the peculiar features they exhibit in the quantum domain need not be explained against a more or less traditional ontological background and can, instead, be attributed directly to the more fundamental—structural—level. q5 6 MATTEO MORGANTI Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ bear. As a matter of fact, the typical metaphysician starts from meta- physical views—arrived at on mostly a priori grounds—and evaluates how these fare with respect to a range of considerations, including, but not reducing to, an assessment of how those views fit with the input coming from the actual world. In view of this, it seems fair to say that in the case under scrutiny, metaphysicians (at least those who have clear opinions about the constitution of material objects and the individuation of those objects) would simply disagree with the claim that there is a problematic underdetermination. An ontological account of the relevant domain, they would argue, can be provided in the framework of either one of the two object-based ontologies—they would just need to be clear about the as- sumptions needed to do this (and the consequences of each interpreta- tion).9 A sensible reply to this is that a priori considerations never provide us with firm grounds for choosing one set of assumptions over others, and so we can (and should) only do metaphysics a posteriori, so dismissing traditional metaphysical arguments altogether. That this is what OSRists think is suggested by the fact that in the extant formulations of the argu- ment under consideration, OSRists just state that there are different ob- ject-based accounts of the particles’ nature and do not engage a critical examination. The problem with this reply, though, is that the OSRist claim being assessed is simply that standard object-oriented realism, based as it is on traditional metaphysical presuppositions, meets with an insur- mountable problem of underdetermination when it comes to interpreting quantum mechanics. At no point are methodological considerations about what counts as ‘proper’ metaphysics brought into play. In light of all this, it appears legitimate to reject premise 3 above. But let us accept that premise for the sake of argument. At least two inter- related questions are left outstanding: Is not the structuralist option also underdetermined by the available evidence? Why exactly should one think that it provides a way out of the underdetermination being pointed at? As for the first question, perhaps the thought is that the structuralist view is not a third option but, rather, a sort of ‘synthesis’ of the individ- uality package and the nonindividuality package. That this is not the case, however, appears quite clear: both the individuality and the nonindivid- uality views are based on objects and monadic properties (possessed by or constituting the former) as fundamental; consequently, relations do not constitute a ‘common core’ shared by the two. Moreover, if a synthesis 9. More generally, from the point of view of traditional metaphysics, there does not seem to be more underdetermination in quantum mechanics than in any other domain of reality that we attempt to characterize in metaphysical terms. On this point, see Chakravartty (2007, 74–75). ONTIC STRUCTURAL REALISM? 7 Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ is what one is looking for, there are a large number of properties that are shared by the two accounts and about which a realist can be realist without also taking a stance regarding the nature of objects in general—certainly without being led to take only relations seriously.10 For what concerns the second question, OSRists often say that one should reconceptualize the quantum domain in terms of physical struc- tures as primitives, from which objects ‘emerge’ as relational ‘nodes’ (French 2006, 183). But (even) if objects emerge, do not we have to account for their (non-)individuality anyway? Compare this with mathematical structuralism. Even once each element, say, in the structure of natural numbers is defined purely structurally, every natural number has definite identity conditions. Therefore—at least relative to one’s assumptions about what being an individual exactly means—one is in a position to state whether natural numbers are individual or nonindividual objects. What about physical objects? The only reaction available to OSRists seems to be to regard the latter as entirely ‘epiphenomenal’ and, thus, as not requiring (or permitting) any metaphysical elucidation. This is enough to suggest that it is far from clear that structuralism is the most natural and least costly solution to the (alleged) problem of underdetermination. In light of this, one may legitimately put premise 5 into doubt. More generally, there are grounds for contending that the argument for OSR that is based on the (alleged) underdetermination of metaphysics by non- relativistic quantum mechanics is unsound and, thus, cannot constitute the basis for a compelling justification of OSR. 4. The Argument from the Primacy of Relations. If the arguments pre- sented in the previous section are correct, merely ‘negative’ considerations against other forms of realism (based on the alleged shortcomings of the latter with respect to the interpretation of physical theory) are not suf- ficient for a persuasive justification of OSR. Consequently, the OSRist will have to provide direct, ‘positive’ support for his or her structuralist ontology. This leads us to the critical assessment of a second argument for OSR that can be found in the recent literature. It has been contended (Saunders 2006; Muller and Saunders 2008; Mul- ler and Seevinck 2009) that quantum particles are not discernible on the basis of the ‘canonical’ versions of PII—which only quantify over monadic properties—but are, in fact, discerned ‘weakly’ by nonsupervenient, ir- 10. Saatsi (2010) voices similar doubts. The OSRist may argue that, unlike the ‘selective sceptic’ (see Chakravartty 2003, 2007), who restricts his or her realist commitment to some of the properties of things while sticking to a ‘canonical’ understanding of the latter, the structuralist can focus more directly on these properties as they emerge from the theory itself. This, however, presupposes the plausibility of the ontic structuralist realist view, which is clearly different from a generic property-based realism. q6 q7 q8 8 MATTEO MORGANTI Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ reflexive, and symmetric relations such as ‘has opposite spin to’ and, consequently, via some Leibnizian principle that takes relations of this type into account. At least once one accepts that metaphysically genuine relations need not be reducible to monadic properties or depend on the existence of already well-defined relata, such weak discernibility of quan- tum particles entails that the nonindividuality option above is untenable. This, in turn, may seem to mean that the underdetermination is broken and, as a consequence, that OSR is undermined. However, Muller (forth- coming) contends that only the first conjunct of this latter claim is true: for, objects that are only weakly discernible depend entirely on relations for their identity and that such relationals fit the structuralist picture perfectly well. In fact, Muller argues, the ‘discovery’ that quantum par- ticles are relationals is very good news for the OSRist. This is the case, of course, provided that not only the identity-determining factors but all properties are shown to be (reducible to) relations. It does not come as a surprise, then, that a structuralist analysis of all physical properties has been undertaken by several philosophers, with the aim of showing that objects and monadic properties are ‘idle’ and play no role whatsoever in physical theory and that, consequently, there are good reasons for believing that nothing exists over and above structure.11 Notice that, quite importantly, what must be shown for this argument to be effective is not only that all properties of things depend on things other than those exemplifying them (i.e., that no property is intrinsic and non- relational) but also that—more strongly—every property is a relation. OSRists customarily quote or mention historical figures such as Cas- sirer, Born, Weyl, and Eddington as authoritative exponents of the view that objects coincide with the identification of invariants with respect to the mathematics relevant to the theory and then connect these historical remarks to more theoretical considerations (French 1999, 2003; Ladyman 2009, sec. 4.1). Muller (forthcoming), for example, argues that the (al- legedly) monadic and intrinsic (essential) properties of quantum particles are, in fact, invariants of the symmetry groups that define the qualitative features of quantum mechanical systems and are, consequently, reducible to the relations that constitute those groups (see also Castellani 1998 and French 2000). Others (Kantorovich 2003; Lyre 2004) argue in analogous fashion that in gauge quantum field theories objects are secondary to structure because symmetries are fundamental in the constitution of fields. In general, OSRists interpret the mathematical nature of physical theory and the fact that all physical properties must be ‘extracted’ somehow from 11. In particular, positive arguments coming directly from physics, together with his- torical considerations, are taken by OSRists to ground a sort of ‘consilience’ in favor of their position (see Ladyman and Ross 2007, 161). ONTIC STRUCTURAL REALISM? 9 Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ symmetries and invariants that can be traced in the formalism of the theory as clear signs that the things described by the theory and their properties are themselves reducible to the relations that define such sym- metries and invariants. Now, whether or not this way of drawing metaphysical consequences from features of the language that we use to describe things is considered acceptable—a complex issue we will not discuss here—it seems undeniable that the claims made by OSRists in the present context are considerably unclear. What does it mean, exactly, that objects and properties are/reduce to invariants or that symmetries are ontologically prior to objects? As a matter of fact, it looks like an important distinction is overlooked (or consciously ignored) here between the formal definition of general, abstract properties, on the one hand, and the concrete property-instances that exist in the material world, on the other hand. Indeed, the claim, say, that objects and properties can be picked out via the identification of invariants across transformations in the groups that define the relevant theoretical structure seems to rest on a fatal conflation of these two el- ements. When one focuses on invariants and the like, one moves at a high level of abstractness, involving the ‘general properties of the general prop- erties’, so to put it, of types of things. Object-tokens and property-tokens can certainly not be ‘found’ there. For instance, one can say (with Weyl) that all quantum numbers are indexes characterizing representations of groups, but while this provides the basis, for instance, for distinguishing fermions and bosons at the abstract theoretical level, it does not in any way ground a reduction of the actual properties of an actual fermion or boson, which (perhaps with the exception of spin) simply are not the immediate referents of those indexes. Thinking otherwise would be like, say, expecting the actual causal features shared by colored material things to be reducible to the general features shared by abstract concepts and words such as ‘redness’, ‘greenness’, and so forth.12 Note that the difference involved here is a difference of category: on one side, there are the properties of the abstract, formal structures used to describe the physical world and, on the other side, the properties of concrete things. Consequently, it will not do for the OSRist to just claim that the specific property-instances of specific actual objects can be ex- tracted via a structural analysis of the theoretical apparatuses employed for describing individual physical systems,13 for although that would (per- 12. Incidentally, notice that the ‘indexes characterizing representations of groups’ are something different from the general relations peculiar to those groups. 13. The OSRist might claim, for instance, that moving from global symmetry groups that apply to entire fields to localized groups describing local fields would accomplish this. q9 10 MATTEO MORGANTI Friday Oct 21 2011 04:20 PM/PHOS10337/2011/78/5/wilarseny/mcaraway/mcaraway/lwe- thing/edited ms to production/1003/use-graphics/narrow/default/ haps) deflate the general/particular distinction, there would still be a gap between the concrete and the abstract. The only remaining option for OSRists is to refuse the request for philosophical analysis on the basis that there is no need to explain how the physical is to be extracted from the abstract. But this can mean only either that (i) the physical is eliminated and abstract structure is directly invested with the role of ontologically fundamental entity or that (ii) the abstract and the concrete are indeed distinct but, nonetheless, the specific way in which they are related is sufficiently graspable for OSR to be compelling without further elaboration. Option i amounts to a form of realism about mathematical, not phys- ical, structure (for something going in this direction, see Tegmark [2007]). Besides having been ruled out at the outset here, such a view is certainly regarded as a minority view—and one that is more revisionary than one would hope among OSRists themselves. As for option ii, it seems to be the view underlying, for instance, Ladyman and Ross’s refusal to say anything about what makes a structure physical rather than mathematical (2007, 158). However, such a refusal will hardly appear motivated to those not already convinced by OSR. To be sure, any revisionary thesis bears the burden of proof, that is, needs to be supported by explicit arguments when it comes to a comparative assessment. Nor is the case for OSR made any stronger by a further consideration of contemporary physics. Muller, for example, mentions results related to relativistic quantum field theories (the ‘Casimir effect’—showing that the physical vacuum contains no particles but is not devoid of physical activity—as well as existing proofs to the effect that both the number and the localizability of particles become frame dependent in a relativistic context) to conclude that objects really find no room in our best science anymore and that we should, consequently, make do with relations only. However, to what extent do these results put into question the notion of an object rather than ‘just’ the concept of a classical (i.e., well-localized, etc.) object? Or, consider space-time physics: while the hole argument and related considerations certainly represent a problem for the naive sub- stantivalist, it is far from generally agreed that a structuralist understand- ing of space-time is the most plausible option in view of them. In con- clusion, then, the argument for OSR based on the (alleged) priority of relations over objects and monadic properties—witnessed by contempo- rary physics—can also be deemed unsatisfactory. From this and what was said in the previous section, it can be concluded that both arguments provided so far in support of OSR are unconvincing. In fact, once they are appropriately disentangled and analyzed, it can be seen that several considerations are often run together based on the er- roneous feeling that they complement and strengthen each other. 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