A jumping index of jumping stocks? An MCMC analysis of continuous-time models for individual stocks

A. Pollastri; P. Rodrigues; C. Schlag; N.J. Seeger

doi:10.1016/j.jempfin.2022.11.007

A jumping index of jumping stocks? An MCMC analysis of continuous-time models for individual stocks

A. Pollastri, P. Rodrigues^*, C. Schlag, N.J. Seeger

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

This paper examines continuous-time models for the S&P 100 index and its constituents. We find that the jump process of the typical stock looks significantly different than that of the index. Most importantly, the average size of a jump in the returns of the typical stock is positive, while it is negative for the index. Furthermore, the estimates of the parameters for the stochastic processes exhibit pronounced heterogeneity in the cross-section of stocks. For example, we find that the jump size in returns decreases for larger companies. Finally, we find that a jump in the index is not necessarily accompanied by a large number of contemporaneous jumps in its constituent's stocks. Indeed, we find index jump days on which only one index constituent also jumps. As a consequence, we show that index jumps can be classified as induced by either synchronous price movements of individual stocks or macroeconomic events.

Original language	English
Pages (from-to)	322-341
Number of pages	20
Journal	Journal of Empirical Finance
Volume	70
DOIs	https://doi.org/10.1016/j.jempfin.2022.11.007
Publication status	Published - 1 Jan 2023

JEL classifications

g11 - "Portfolio Choice; Investment Decisions"
g12 - "Asset Pricing; Trading volume; Bond Interest Rates"

Keywords

Jump-diffusion models
Individual stocks
Markov Chain Monte Carlo
STOCHASTIC VOLATILITY
BAYESIAN-ANALYSIS
RISK PREMIA
DYNAMICS
OPTIONS
IMPLICIT
RETURNS
PRICES
SPOT

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10.1016/j.jempfin.2022.11.007Licence: CC BY

Cite this

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title = "A jumping index of jumping stocks? An MCMC analysis of continuous-time models for individual stocks",

abstract = "This paper examines continuous-time models for the S&P 100 index and its constituents. We find that the jump process of the typical stock looks significantly different than that of the index. Most importantly, the average size of a jump in the returns of the typical stock is positive, while it is negative for the index. Furthermore, the estimates of the parameters for the stochastic processes exhibit pronounced heterogeneity in the cross-section of stocks. For example, we find that the jump size in returns decreases for larger companies. Finally, we find that a jump in the index is not necessarily accompanied by a large number of contemporaneous jumps in its constituent's stocks. Indeed, we find index jump days on which only one index constituent also jumps. As a consequence, we show that index jumps can be classified as induced by either synchronous price movements of individual stocks or macroeconomic events.",

keywords = "Jump-diffusion models, Individual stocks, Markov Chain Monte Carlo, STOCHASTIC VOLATILITY, BAYESIAN-ANALYSIS, RISK PREMIA, DYNAMICS, OPTIONS, IMPLICIT, RETURNS, PRICES, SPOT",

author = "A. Pollastri and P. Rodrigues and C. Schlag and N.J. Seeger",

note = "data source: CRSP and COMPUSTAT via WRDS",

year = "2023",

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doi = "10.1016/j.jempfin.2022.11.007",

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T1 - A jumping index of jumping stocks? An MCMC analysis of continuous-time models for individual stocks

AU - Pollastri, A.

AU - Rodrigues, P.

AU - Schlag, C.

AU - Seeger, N.J.

N1 - data source: CRSP and COMPUSTAT via WRDS

PY - 2023/1/1

Y1 - 2023/1/1

N2 - This paper examines continuous-time models for the S&P 100 index and its constituents. We find that the jump process of the typical stock looks significantly different than that of the index. Most importantly, the average size of a jump in the returns of the typical stock is positive, while it is negative for the index. Furthermore, the estimates of the parameters for the stochastic processes exhibit pronounced heterogeneity in the cross-section of stocks. For example, we find that the jump size in returns decreases for larger companies. Finally, we find that a jump in the index is not necessarily accompanied by a large number of contemporaneous jumps in its constituent's stocks. Indeed, we find index jump days on which only one index constituent also jumps. As a consequence, we show that index jumps can be classified as induced by either synchronous price movements of individual stocks or macroeconomic events.

AB - This paper examines continuous-time models for the S&P 100 index and its constituents. We find that the jump process of the typical stock looks significantly different than that of the index. Most importantly, the average size of a jump in the returns of the typical stock is positive, while it is negative for the index. Furthermore, the estimates of the parameters for the stochastic processes exhibit pronounced heterogeneity in the cross-section of stocks. For example, we find that the jump size in returns decreases for larger companies. Finally, we find that a jump in the index is not necessarily accompanied by a large number of contemporaneous jumps in its constituent's stocks. Indeed, we find index jump days on which only one index constituent also jumps. As a consequence, we show that index jumps can be classified as induced by either synchronous price movements of individual stocks or macroeconomic events.

KW - Jump-diffusion models

KW - Individual stocks

KW - Markov Chain Monte Carlo

KW - STOCHASTIC VOLATILITY

KW - BAYESIAN-ANALYSIS

KW - RISK PREMIA

KW - DYNAMICS

KW - OPTIONS

KW - IMPLICIT

KW - RETURNS

KW - PRICES

KW - SPOT

U2 - 10.1016/j.jempfin.2022.11.007

DO - 10.1016/j.jempfin.2022.11.007

M3 - Article

SN - 0927-5398

VL - 70

SP - 322

EP - 341

JO - Journal of Empirical Finance

JF - Journal of Empirical Finance

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