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A simple microstructural explanation of the concavity of price impact
Author(s) -
Nadtochiy Sergey
Publication year - 2022
Publication title -
mathematical finance
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.98
H-Index - 81
eISSN - 1467-9965
pISSN - 0960-1627
DOI - 10.1111/mafi.12314
Subject(s) - executor , simple (philosophy) , economics , order (exchange) , nonlinear system , constant (computer programming) , econometrics , sequence (biology) , market impact , bid price , market price , flow (mathematics) , mathematical economics , mathematics , market microstructure , microeconomics , computer science , physics , economy , geometry , philosophy , finance , epistemology , quantum mechanics , biology , genetics , programming language
This article provides a simple explanation of the asymptotic concavity of the price impact of a meta‐order via the microstructural properties of the market. This explanation is made more precise by a model in which the local relationship between the order flow and the fundamental price (i.e., the local price impact) is linear, with a constant slope, which makes the model dynamically consistent. Nevertheless, the expected impact on midprice from a large sequence of co‐directional trades is nonlinear and asymptotically concave. The main practical conclusion of the proposed explanation is that, throughout a meta‐order, the volumes at the best bid and ask prices change (on average) in favor of the executor. This conclusion, in turn, relies on two more concrete predictions, one of which can be tested, at least for large‐tick stocks, using publicly available market data.