Of course we have been investigating a wide variety of multiverse concepts, and in this sense, yes, we have not just one, but many, multiverses. But to be sure, much of this multiverse analysis has been inspired by the philosophical idea that there is or might be a unique grand multiverse for mathematics: the actual multiverse, but aware of the possibility that this is a mirage. Even when one has the idea, as many of us do, of looking for mathematical truth in various set-theoretic universes or categories, there might remain the question: which such universe or categories are there? What kind of universes can there be? To assert that there are facts-of-the-matter about what kind of universes exist is to take a step in the direction of *the* multiverse, and this is philosophical issue at stake in the singularity or plurality of the multiverse. Of course it is not satisfactorily answered simply by adopting the multiverse position itself. I was led in my multiverse paper, to which you have linked, by this kind of thinking to formulate axioms expressing what kind of existence principles we would want or expect in such a multiverse. - <cite authors="Hamkins, Joel David">_Hamkins, Joel David_, [**The set-theoretic multiverse**](http://jdh.hamkins.org/up-and-down-in-the-generic-multiverse/), Rev. Symb. Log. 5, No. 3, 416-449 (2012). [DOI:10.1017/S1755020311000359](http://dx.doi.org/10.1017/S1755020311000359), [ZBL1260.03103](https://zbmath.org/?q=an:1260.03103), [blog post](http://jdh.hamkins.org/up-and-down-in-the-generic-multiverse/)</cite> How nice it was to observe that the philosophical issues transform into purely mathematical questions, when one proposes various specific mathematical multiverse conceptions and begins to analyze their mathematical nature. Thus, one gains philosophical insight by means of a purely mathematical investigation. And this investigation has been undertaken in earnest. So the basic approach has been to study various specific multiverse conceptions as toy multiverses of a kind, standing in for the actual larger multiverse that we seek to understand. Let me mention several instances. Victoria Gitman and I looked at the multiverse consisting of the countable computably saturated models of set theory, in our paper: - <cite authors="Gitman, Victoria; Hamkins, Joel David">_Gitman, Victoria; Hamkins, Joel David_, [**A natural model of the multiverse axioms**](http://jdh.hamkins.org/naturalmodelofmultiverseaxioms/), Notre Dame J. Formal Logic 51, No. 4, 475-484 (2010). [DOI:10.1215/00294527-2010-030)](http://dx.doi.org/10.1215/00294527-2010-030), [ZBL1214.03035](https://zbmath.org/?q=an:1214.03035), [blog post](http://jdh.hamkins.org/naturalmodelofmultiverseaxioms/).</cite> This collection of models, it turns out, fulfill all of the multiverse axioms I had identified in my multiverse paper, and more. Woodin had defined the *generic multiverse* of a model of set theory, which is the smallest collection containing that model and closed under forcing extensions and ground models. This is, of course, a robust multiverse conception, but nevertheless, there are many set-theoretic principles, such as the GCH, that are achievable over a model of set theory, but not necessarily by set forcing. Benedikt Löwe and I had investigated the generic multiverse as a Kripke model with two natural modal operators, an upward-oriented forcing possibility and a downward-oriented ground-model possibility, and we explored the modal validities of this system in our papers on the modal logic of forcing and also in: - <cite authors="Hamkins, Joel David; Löwe, Benedikt">_Hamkins, Joel David; Löwe, Benedikt_, [**Moving up and down in the generic multiverse**](http://jdh.hamkins.org/up-and-down-in-the-generic-multiverse/), Lodaya, Kamal (ed.), Logic and its applications. 5th Indian conference, ICLA 2013, Chennai, India, January 10--12, 2013, Proceedings. Berlin: Springer (ISBN 978-3-642-36038-1/pbk). Lecture Notes in Computer Science 7750, 139-147 (2013). [DOI:10.1007/978-3-642-36039-8_13](http://dx.doi.org/10.1007/978-3-642-36039-8_13), [ZBL1303.03078](https://zbmath.org/?q=an:1303.03078), [blog post](http://jdh.hamkins.org/up-and-down-in-the-generic-multiverse/).</cite> The Vienna approach, advanced by Sy Friedman and his collaborators, including Carolin Antos and others, has focused on the collection of countable *transitive* models of ZFC, the set-theoretic *hyperverse*, which is a multiverse conception, in which the concept of well-foundedness is emphasized as absolute. Friedman has identified a program of using the hyperverse as a means of identifying natural set-theoretic axioms, such as the Inner Model Hypothesis. The New York approach, in contrast, in work of myself, Victoria Gitman and Kameryn Williams, has emphasized the non-absolute character of well-foundedness, and has accordingly accommodated ill-founded models of set theory. There have been many recent developments in this area, including the universal finite set: - <cite>J. D. Hamkins and W. Woodin, [The universal finite set](http://jdh.hamkins.org/the-universal-finite-set/), [ArXiv:1711.07952](http://arxiv.org/abs/1711.07952), pp. 1-16, 2017. [blog post](http://jdh.hamkins.org/the-universal-finite-set/)</cite> Recently, in my work with Øystein Linnebo and others, we have explored diverse concepts of set-theoretic potentialism, which I view as multiverse perspectives. - <cite>J. D. Hamkins and Ø. Linnebo, [The modal logic of set-theoretic potentialism and the potentialist maximality principles](http://jdh.hamkins.org/the-set-theoretic-multiverse/), to appear in Review of Symbolic Logic, 2018. [Arxiv:1801.04599](http://arxiv.org/abs/1801.04599), [blog post](http://jdh.hamkins.org/the-set-theoretic-multiverse/) </cite> In that paper, we look at various multiverse conceptions of potentialism, exploring collections of models of set theory under the relation of rank-extension and end-extension and many others, investigating in each case the modal validities of that potentialist conception. In summary, there is a huge effort currently underway to investigate diverse multiverse conceptions. Lastly, I notice that you mention the category-theoretic approach to the multiverse, so let me mention that, unfortunately, the category-theoretic perspective has not seemed to play a large role in recent work in this area. Perhaps ideas arising from this perspective will find a fruitful application in the future. I am hopeful about that.