TY  - JOUR
N1  - © 2010 American Physical Society


AV  - public
SN  - 1539-3755
ID  - eprints270
N2  - We study the behavior of U.S. markets both before and after U.S. Federal Open Market Commission meetings and show that the announcement of a U.S. Federal Reserve rate change causes a financial shock, where the dynamics after the announcement is described by an analog of the Omori earthquake law. We quantify the rate n(t) of aftershocks following an interest-rate change at time T and find power-law decay which scales as n(t?T)?(t?T)??, with ? positive. Surprisingly, we find that the same law describes the rate n?(|t?T|) of ?preshocks? before the interest-rate change at time T. This study quantitatively relates the size of the market response to the news which caused the shock and uncovers the presence of quantifiable preshocks. We demonstrate that the news associated with interest-rate change is responsible for causing both the anticipation before the announcement and the surprise after the announcement. We estimate the magnitude of financial news using the relative difference between the U.S. Treasury Bill and the Federal Funds effective rate. Our results are consistent with the ?sign effect,? in which ?bad news? has a larger impact than ?good news.? Furthermore, we observe significant volatility aftershocks, confirming a ?market under-reaction? that lasts at least one trading day.
TI  - Quantitative law describing market dynamics before and after interest-rate change
Y1  - 2010/06//
UR  - http://link.aps.org/doi/10.1103/PhysRevE.81.066121
JF  - Physical Review E
A1  - Petersen, Alexander M.
A1  - Wang, Fengzhong
A1  - Havlin, Shlomo
A1  - Stanley, H. Eugene
VL  - 81
PB  - American Physical Society
IS  - 6
KW  - PACS: 89.65.Gh
KW  -  91.30.Px
KW  -  89.75.Da
KW  -  64.60.av
ER  -