Phantom map
In homotopy theory, phantom maps are continuous maps of CW-complexes for which the restriction of to any finite subcomplex is inessential (i.e., nullhomotopic). J. Frank Adams and Grant Walker (1964) produced the first known nontrivial example of such a map with finite-dimensional (answering a question of Paul Olum). Shortly thereafter, the terminology of "phantom map" was coined by Brayton Gray (1966), who constructed a stably essential phantom map from infinite-dimensional complex projective space to .[1] The subject was analysed in the thesis of Gray, much of which was elaborated and later published in (Gray & McGibbon 1993). Similar constructions are defined for maps of spectra.[2]
Definition
[edit]Let be a regular cardinal. A morphism in the homotopy category of spectra is called an -phantom map if, for any spectrum s with fewer than cells, any composite vanishes.[3]
References
[edit]- ^ Mathew, Akhil (2012-06-13). "An example of a phantom map". Climbing Mount Bourbaki. Archived from the original on 2021-07-31.
- ^ Lurie, Jacob (2010-04-27). "Phantom Maps (Lecture 17)" (PDF). Archived (PDF) from the original on 2022-01-30.
- ^ Neeman, Amnon (2010). Triangulated Categories. Princeton University Press.
- Adams, J. Frank; Walker, G. (1964), "An example in homotopy theory", Proc. Cambridge Philos. Soc., 60 (3): 699–700, Bibcode:1964PCPS...60..699A, doi:10.1017/S0305004100077422, MR 0166786
- Gray, Brayton I. (1966), "SPACES OF THE SAME n-TYPE, FOR ALL n", Topology, 5 (3): 241–243, doi:10.1016/0040-9383(66)90008-5, MR 0196743
- Gray, Brayton; McGibbon, C.A. (1993), "Universal phantom maps", Topology, 32 (2): 371–294, doi:10.1016/0040-9383(93)90027-S