Christoph Gerstenecker scite author profile

Christoph Gerstenecker

5Publications

91Citation Statements Received

110Citation Statements Given

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108

Affiliations

TU Wien

Publications

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Moment explosions in the rough Heston model

Gerhold

Gerstenecker

Pinter

2019

Decisions Econ Finan

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We show that the moment explosion time in the rough Heston model [El Euch, Rosenbaum 2016, arXiv:1609.02108] is finite if and only if it is finite for the classical Heston model. Upper and lower bounds for the explosion time are established, as well as an algorithm to compute the explosion time (under some restrictions). We show that the critical moments are finite for all maturities. For negative correlation, we apply our algorithm for the moment explosion time to compute the lower critical moment. arXiv:1801.09458v3 [q-fin.MF]

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Moment Explosions in the Rough Heston Model

Gerhold¹,

Gerstenecker²,

Pinter³

2018

Preprint

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Large deviations for fractional volatility models with non-Gaussian volatility driver

Gerhold

Gerstenecker

Gulisashvili

2021

Stochastic Processes and their Applications

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Large deviations for fractional volatility models with non-Gaussian volatility driver

Gerhold¹,

Gerstenecker²,

Gulisashvili³

2020

Preprint

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We study stochastic volatility models in which the volatility process is a function of a continuous fractional stochastic process, which is an integral transform of the solution of an SDE satisfying the Yamada-Watanabe condition. We establish a small-noise large deviation principle for the log-price, and, for a special case of our setup, obtain logarithmic call price asymptotics for large strikes.

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Large deviations related to the law of the iterated logarithm for Itô diffusions

Gerhold¹,

Gerstenecker²

2020

Electron. Commun. Probab.

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When a Brownian motion is scaled according to the law of the iterated logarithm, its supremum converges to one as time tends to zero. Upper large deviations of the supremum process can be quantified by writing the problem in terms of hitting times and applying a result of Strassen (1967) on hitting time densities. We extend this to a small-time large deviations principle for the supremum of scaled Itô diffusions, using as our main tool a refinement of Strassen's result due to Lerche (1986).

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