We compare the asymptotic local power of upper-tail unit root tests against an explosive alternative based on ordinary least squares (OLS) and quasi-differenced (QD) demeaning/detrending. We find that under an asymptotically negligible initialisation, the QD-based tests are near asymptotically efficient and generally offer superior power to OLS-based approaches; however, the power gains are much more modest than in the lower-tail testing context. We also find that asymptotically non-negligible initial conditions do not affect the power ranking in the same way as they do for lower-tail tests, with the QD-based tests retaining a power advantage in such cases
It is well known that it is vital to account for trend breaks when testing for a unit root. In pract...
F tests which test jointly for a unit root and a zero intercept, and so compete against Dickey-Fulle...
In this article, we compare the local asymptotic and finite sample power of two recently proposed re...
We provide a joint treatment of two major problems that surround testing for a unit root in practice...
We examine the behaviour of OLS-demeaned/detrended and GLS-demeaned/detrended unit root tests that e...
We evaluate the impact of heavy-tailed innovations on some popular unit root tests. In the context ...
This paper details a precise analytic e¤ect that inclusion of a linear trend has on the power of Ney...
In this paper we examine the local power of unit root tests against globally stationary exponential ...
We study the power of four popular unit root tests in the presence of a local-to-finite variance DGP...
Right-tailed unit root tests have proved promising for detecting exuberance in economic and financial...
The size and power properties of a hypothesis test typically depend on a series of factors which are...
We show how to obtain the exact power envelope of tests for a unit root against trend-stationary alt...
Standard unit-root tests are known to be biased towards the non-rejection of a unit-root when they a...
Dickey and Fuller (1981) suggested unit root tests for an autoregressive model with a linear trend a...
In this note we consider the asymptotic power functions of some bootstrap unit root tests under loca...
It is well known that it is vital to account for trend breaks when testing for a unit root. In pract...
F tests which test jointly for a unit root and a zero intercept, and so compete against Dickey-Fulle...
In this article, we compare the local asymptotic and finite sample power of two recently proposed re...
We provide a joint treatment of two major problems that surround testing for a unit root in practice...
We examine the behaviour of OLS-demeaned/detrended and GLS-demeaned/detrended unit root tests that e...
We evaluate the impact of heavy-tailed innovations on some popular unit root tests. In the context ...
This paper details a precise analytic e¤ect that inclusion of a linear trend has on the power of Ney...
In this paper we examine the local power of unit root tests against globally stationary exponential ...
We study the power of four popular unit root tests in the presence of a local-to-finite variance DGP...
Right-tailed unit root tests have proved promising for detecting exuberance in economic and financial...
The size and power properties of a hypothesis test typically depend on a series of factors which are...
We show how to obtain the exact power envelope of tests for a unit root against trend-stationary alt...
Standard unit-root tests are known to be biased towards the non-rejection of a unit-root when they a...
Dickey and Fuller (1981) suggested unit root tests for an autoregressive model with a linear trend a...
In this note we consider the asymptotic power functions of some bootstrap unit root tests under loca...
It is well known that it is vital to account for trend breaks when testing for a unit root. In pract...
F tests which test jointly for a unit root and a zero intercept, and so compete against Dickey-Fulle...
In this article, we compare the local asymptotic and finite sample power of two recently proposed re...