After one year and half of very hard work and creative solutions to cope with the pandemic and all sorts of supply chain disruptions and delays, the trapped-ion team is happy to announce the first trapped ions in the state of Texas! In the left picture you can see four happy 171Yb+ atoms. On the right, we had fun setting radial and axial frequency very close, so that the ions are arranged in a nice “emoticon” configuration :). Thanks everyone! And now the real fun starts!

Guido has been awarded the National Science Foundation CAREER award to study entanglement and out-of-equilibrium physics in open quantum systems. Thanks NSF!

Rice Press release

In Many-body localized (MBL) systems disorder and interactions cooperate to create non-thermal state of matter. This means that, even if initialized in a high energy, out of equilibrium state, the system fails to reach thermodynamic equilibrium. Using the trapped-ion quantum simulator at JQI, we surprisingly find that MBL can be realized also in disorder-free systems featuring a very large gradient. A new phenomenon called Stark MBL.

• Observation of Stark many-body localization without disorder:
  W. Morong, F. Liu, P. Becker, K. S. Collins, L. Feng, A. Kyprianidis, G. Pagano, T. You, A. V. Gorshkov, C. Monroe, Nature 599, 393 (2021).
• Rice News Press Release

Before joining Rice, Midhuna Duraisamy Suganthi studied at the IIT of Madras, with an research internship at Purdue University working on BEC in momentum-space lattices. She will join the trapped-ion research effort. Welcome Midhuna!

Abhishek Menon did his undergraduate studies at University of Maryland where he did research in the group of Chris Monroe. He is now joining our trapped-ion effort at Rice. Welcome Abhi!

Roman Zhuravel just joined Pagano Research group in July 2021 with the prestigious Attwell-Welch Postdoctoral fellowship! He did his PhD at Hebrew University studying electron transfer in DNA and he is ready for a new adventure using trapped ions as a tool for quantum information science. Welcome!

What is a Time Crystal? Is disorder a necessary ingredient to stabilize this new phase of matter that features a robust sub-harmonic time response? In this paper we investigate what are the conditions to observe a prethermal time crystal and its dependence on the frequency drive and the initial state.

• Observation of a Prethermal Time Crystal:
  A. Kyprianidis, F. Machado, W. Morong, P. Becker, K. S. Collins, D. V. Else, L. Feng, P. W. Hess, C. Nayak, G. Pagano, N. Y. Yao, C. Monroe, Science, 372, 1192 (2021).
• Rice News Press Release

If you want to know more about how to use trapped ions for quantum simulation of spin models, you can read this thorough review, that covers both the basics and the most recent results in the field. Enjoy!

• Programmable Quantum Simulations of Spin Systems with Trapped Ions:
  C. Monroe, W. C. Campbell, L.-M. Duan, Z.-X. Gong, A. V. Gorshkov, P. Hess, R. Islam, K. Kim, G. Pagano, P. Richerme, C. Senko, N. Y. Yao, Review of Modern Physics, 93, 025001 (2021).

Understanding how fast quantum information propagates in a many-body system is of crucial importance from a fundamental point of view as well as for quantum computing applications. Under which conditions a quantum excitation spreads across the entire system or remains confined and thermalizes very slowly? If you want to know the answer, check out our new paper on Nature Physics on domain wall confinement in a trapped-ion quantum simulator!

• Domain Wall Confinement and Dynamics in a Quantum Simulator: W. L. Tan, P. Becker, F. Liu, G. Pagano, K. S. Collins, A. De, L. Feng, H. B. Kaplan, A. Kyprianidis, R. Lundgren, W. Morong, S. Whitsitt, A. V. Gorshkov, C. Monroe, Nature Physics (2021).

In trapped-ion systems quantum information is processed using normal modes of motion.  Cooling down to the absolute ground state these motional degrees of freedom is crucial to enhance gate fidelities and to scale up quantum simulators. In this paper we develop a new EIT cooling scheme that works on ions with a “tripod” atomic structure which have pristine nuclear spin qubits. Check out on Phys. Rev. Lett. how to ground-state cool up to 80 harmonic modes in a 40 ion chain in only 300 µs!

• Efficient ground-state cooling of large trapped-ion chains with an EIT tripod scheme: L. Feng, W. L. Tan, A. De, A. Menon, A.Chu, G. Pagano, C. Monroe, Phys. Rev. Lett. 125, 053001 (2020).