Relative number squeezing in a Spin-1 Bose-Einstein condensate

Bookjans, Eva M.

15 November 2010

The quantum properties of matter waves, in particular quantum correlations and entanglement are an important frontier in atom optics with applications in quantum metrology and quantum information. In this thesis, we report the first observation of sub-Poissonian fluctuations in the magnetization of a spinor 87Rb condensate. The fluctuations in the magnetization are reduced up to 10 dB below the classical shot noise limit. This relative number squeezing is indicative of the predicted pair-correlations in a spinor condensate and lay the foundation for future experiments involving spin-squeezing and entanglement measurements. We have investigated the limits of the imaging techniques used in our lab, absorption and fluorescence imaging, and have developed the capability to measure atoms numbers with an uncertainly < 10 atoms. Condensates as small as ≈ 10 atoms were imaged and the measured fluctuations agree well with the theoretical predictions. Furthermore, we implement a reliable calibration method of our imaging system based on quantum projection noise measurements. We have resolved the individual lattice sites of a standing-wave potential created by a CO2 laser, which has a lattice spacing of 5.3 µm. Using microwaves, we site-selectively address and manipulate the condensate and therefore demonstrate the ability to perturb the lattice condensate of a local level. Interference between condensates in adjacent lattice sites and lattice sites separated by a lattice site are observed.

CO2 laser lattice potential

Resolving lattice sites

Addressing single lattice sites

Atom interference

Spin-mixing

Small atom numbers

Absorption imaging

Fluorescence imaging

Relative number squeezing

Sub-Poissonian fluctuations

Magnetization

Spinor BEC

Bose-Einstein condensate

CO2 laser optical dipole trap

Imaging noise

Number fluctuations

Lattice potential

Quantum projection noise

Atom pair correlations

Imaging calibration

Photon shot noise

Bose-Einstein condensation

Quantum optics

Squeezed light