Research Information System
FINANCIAL INNOVATION, vol.11, no.1, 2025 (SSCI)
We examine technology ETF and uncertainty index (VIX, GVZ, and OVZ) spillover dynamics and quantile frequency interconnectedness across market states. This study is the first to use quantile-frequency spillover, quadruple wavelet coherence, and wavelet quantile correlation methodologies to facilitate these analyses. The total connectedness index value is 70%, which is much higher in both the upper and lower quantiles. Under normal market conditions, short-term connectedness significantly exceeds long-term connectedness. Levels of ETF-uncertainty indicator connectedness increase under extreme market conditions; most technology ETFs are net spillover transmitters and uncertainty indices net spillover receivers, indicating the contagion risk of ETF investments. We show that while greater ETF-uncertainty index connectedness may benefit portfolio diversification, large fluctuations in technology EFTs can result in financial instability due to high market volatility. In the long term, the joint effects of uncertainty indices on ETFs are significant, with negative correlations between ETFs and uncertainties at different frequencies, supporting the potential role of uncertainty indices in hedging technology ETF portfolio risks. Dynamic portfolio rebalancing, scenario analysis, and stress testing may help to manage the effects of high connectedness.