Imperfect Commitment in Maximal Extractable Value Auctions
Abstract
Ethereum block builders run sealed auctions among searchers, but nothing in the protocol forces a builder to honor the auction outcome after observing submitted bundles. This paper studies the commitment problem. We model a builder who defects with probability and, upon defection, replicates a type-specific fraction of the winning MEV opportunity. Searchers anticipate this behavior and choose between a risky first-price bid and a safe deterrence bid that makes frontrunning unprofitable. The resulting equilibrium is piecewise, with the cost of imperfect commitment depending jointly on replicability and competition. Using the libMEV dataset, we estimate from right-tail bribe plateaus and decompose observed auction revenue against the surplus a defecting builder could capture. The results show sharp heterogeneity across MEV types: sandwich opportunities are already highly competitive, while naked arbitrage and liquidations leave substantially more surplus exposed to builder defection. Credible MEV auctions, therefore, require not only an auction format, but also constraints on the builder's ability to use observed bid and payload information ex post.
Cite
@article{arxiv.2605.22667,
title = {Imperfect Commitment in Maximal Extractable Value Auctions},
author = {Aleksei Adadurov and Sergey Barseghyan and Anton Chtepine and Antero Eloranta and Andrei Sebyakin and Arsenii Valitov},
journal= {arXiv preprint arXiv:2605.22667},
year = {2026}
}