Message: Return type of CI_Session_null_driver::open($save_path, $name) should either be compatible with SessionHandlerInterface::open(string $path, string $name): bool, or the #[\ReturnTypeWillChange] attribute should be used to temporarily suppress the notice
Message: Return type of CI_Session_null_driver::close() should either be compatible with SessionHandlerInterface::close(): bool, or the #[\ReturnTypeWillChange] attribute should be used to temporarily suppress the notice
Message: Return type of CI_Session_null_driver::read($session_id) should either be compatible with SessionHandlerInterface::read(string $id): string|false, or the #[\ReturnTypeWillChange] attribute should be used to temporarily suppress the notice
Message: Return type of CI_Session_null_driver::write($session_id, $session_data) should either be compatible with SessionHandlerInterface::write(string $id, string $data): bool, or the #[\ReturnTypeWillChange] attribute should be used to temporarily suppress the notice
Message: Return type of CI_Session_null_driver::destroy($session_id) should either be compatible with SessionHandlerInterface::destroy(string $id): bool, or the #[\ReturnTypeWillChange] attribute should be used to temporarily suppress the notice
Message: Return type of CI_Session_null_driver::gc($maxlifetime) should either be compatible with SessionHandlerInterface::gc(int $max_lifetime): int|false, or the #[\ReturnTypeWillChange] attribute should be used to temporarily suppress the notice
The Jiangmen Underground Neutrino Observatory (JUNO) in Guangdong, China, is poised to transform the study of neutrinos, subatomic particles produced by nuclear reactions. Set to begin operations in 2025, this $300 million facility features a giant spherical detector located 700 meters underground, surrounded by a 12-storey cylindrical pool of water. This innovative setup is designed to capture and analyze neutrinos emitted from nearby nuclear power plants, as well as those from the sun and t
The Jiangmen Underground Neutrino Observatory (JUNO) in Guangdong, China, is poised to transform the study of neutrinos, subatomic particles produced by nuclear reactions. Set to begin operations in 2025, this $300 million facility features a giant spherical detector located 700 meters underground, surrounded by a 12-storey cylindrical pool of water. This innovative setup is designed to capture and analyze neutrinos emitted from nearby nuclear power plants, as well as those from the sun and t
