The Lord of the Rings: The Rings of Power director J.A. Bayona already knows how the series ends despite only season 1 having been released.
The Lord of the Rings: The Rings of Power director J.A. Bayona says he already knows how the entire series ends despite only season 1 being released. Based on J.R.R. Tolkien's Middle-earth, The Lord of the Rings: The Rings of Power details the forging of the Rings of Power and the rise of Sauron in the Second Age. Production on season 2 of the expensive Prime Video series is already underway in the UK.
SCREENRANT VIDEO OF THE DAY SCROLL TO CONTINUE WITH CONTENT "I'm very excited with that story. I know the ending. I know where everything is heading to, and I'm super excited to see the whole thing, not only one story, in the whole story."
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Excitation and probing of low-energy nuclear states at high-energy storage rings$^{229}\mathrm{Th}$ with a low-lying nuclear isomeric state is an essential candidate for a nuclear clock as well as many other applications. Laser excitation of the isomeric state has been a long-standing goal. With relativistic $^{229}\mathrm{Th}$ ions in storage rings, high-power lasers with wavelengths in the visible range or longer can be used to achieve high excitation rates of $^{229}\mathrm{Th}$ isomers. This can be realized through direct resonant excitation or excitation via an intermediate nuclear or electronic state, facilitated by the tunability of both the laser-beam and ion-bunch parameters. Unique opportunities are offered by highly charged $^{229}\mathrm{Th}$ ions due to the nuclear-state mixing. The significantly reduced isomeric-state lifetime corresponds to a much higher excitation rate for direct resonant excitation. Importantly, we propose electric dipole transitions changing both the electronic and nuclear states that are opened by the nuclear hyperfine mixing. We suggest using them for efficient isomer excitation in Li-like $^{229}\mathrm{Th}$ ions, via stimulated Raman adiabatic passage or single-laser excitation. We also propose schemes for probing the isomers, utilizing nuclear radiative decay or laser spectroscopy on electronic transitions, through which the isomeric-state energy can be determined with an orders-of-magnitude higher precision than the current value. The schemes proposed here for $^{229}\mathrm{Th}$ could also be adapted to low-energy nuclear states in other nuclei, such as $^{229}\mathrm{Pa}$.
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