What the study found
The authors constructed bi- and uni-vector deformations of 10d heterotic supergravity solutions. They also generalized the "open/closed" map for this setting and examined examples of the resulting deformed solutions, especially for the F1 string solution.
Why the authors say this matters
The abstract does not state a broader significance or application beyond the construction itself.
What the researchers tested
The researchers used the gauged double field theory approach to build deformations of ten-dimensional heterotic supergravity solutions. They then generalized the "open/closed" map for this case and applied the setup to example solutions.
What worked and what didn't
The construction of bi-vector and uni-vector deformations was achieved in the framework described in the abstract. The authors also produced a generalized "open/closed" map and considered examples, particularly the F1 string solution. The abstract does not describe any failed cases or negative results.
What to keep in mind
The available summary is brief and does not give detailed equations, conditions, or limitations. It also does not describe comparative performance, broader consequences, or constraints on when the construction applies.
Key points
- The paper constructs bi-vector and uni-vector deformations of 10d heterotic supergravity solutions.
- A generalized "open/closed" map is developed for this case.
- The gauged double field theory approach is the method used.
- Examples are discussed, particularly the F1 string solution.
- The abstract does not describe limitations or failed cases.
Disclosure
- Research title:
- Heterotic supergravity deformations are constructed with vector methods
- Authors:
- Kirill Gubarev, Konstantin Sovit
- Institutions:
- Institut Pere Mata, Institute for Information Transmission Problems, Lomonosov Moscow State University, Moscow State University
- Publication date:
- 2026-04-27
- OpenAlex record:
- View
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