📝 SummarXiv

Abstract

Recent development of cloud-based experiment platforms has allowed physicists to examine theoretical concepts with unprecedented convenience. Oqtant is a cloud-accessible platform for trapped Bose-Einstein Condensates (BECs) of neutral atomic gases, providing an invaluable experimental tool for studying the dynamics of BECs. Anomalous tunneling, which means low-energy phonon excitations of BECs easily transmit through a barrier potential, has been theoretically predicted as a characteristic phenomenon of BECs. We utilize Oqtant to observe the effects of anomalous tunneling on collective excitations of BECs. For this purpose, we theoretically show that anomalous tunneling affects the frequencies of the collective excitations in the low-energy region and experimentally measure their frequencies, finding that low-energy collective modes are less affected by a potential barrier, which indicates the presence of anomalous tunneling. Our work would contribute to fundamental understandings of BECs and stimulate further development and use of cloud-based experiments in this field.