PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
32794776-0	2020	Ultralong Spin-Coherence Times for Rubidium Atoms in Solid Parahydrogen via Dynamical Decoupling.	Rubidium	35-43	spindlin 1	Homo sapiens	10-14	
32794776-2	2020	In this work, we demonstrate electron spin coherence times as long as 0.1 s for an ensemble of rubidium atoms trapped in a solid parahydrogen matrix.	Rubidium	95-103	spindlin 1	Homo sapiens	38-42	
27830744-4	2016	A new type of spin relaxation of Rb atom spins, which can broaden the zero-field magnetic resonance lines of the co-magnetometer, is discovered.	Rubidium	33-35	spindlin 1	Homo sapiens	14-18	
29686374-5	2018	The first sentence of the fourth paragraph of this same section originally read as "As the collisional energies are on the mK energy scale, spin exchange between Sr+ and Rb prepared in the F = 1 state is allowed only as long as it does not require Rb to change its hyperfine state and climb the 330 m hyperfine energy gap", which is incorrect.	Rubidium	170-172	spindlin 1	Homo sapiens	140-144	
32549426-1	2020	We measure the spin noise spectrum (SNS) of a thermal Rubidium vapor in a pulse-modulated transverse magnetic field and develop a simple theory to describe the main structure of the SNS.	Rubidium	54-62	spindlin 1	Homo sapiens	15-19	
27830744-5	2016	Further studies show that the spin relaxation of Rb atoms is caused by a high Rb electron magnetization field.	Rubidium	49-51	spindlin 1	Homo sapiens	30-34	
27419582-4	2016	This novel nonvortical RB spin structure is confirmed as a general phenomenon originating from the C_{1h} symmetry of the surface.	Rubidium	23-25	spindlin 1	Homo sapiens	26-30	
26722919-3	2015	When the Rb polarization is modulated at the noble-gas (Xe) NMR resonance, spin-exchange collisions buildup a precessing transverse Xe polarization.	Rubidium	9-11	spindlin 1	Homo sapiens	75-79	
25924953-6	2015	The model is experimentally confirmed using "two-color" optical spin noise spectroscopy on a mixture of interacting Rb and Cs vapors.	Rubidium	116-118	spindlin 1	Homo sapiens	64-68	
26196973-4	2015	We illustrate the concept on a spin-1 chain implemented with cold rubidium atoms, and demonstrate that this permits the dynamical preparation of topological magnetic phases.	Rubidium	66-74	spindlin 1	Homo sapiens	31-37	
21668171-3	2011	The spin system can also be used to cool other degrees of freedom, and we have used this coupling to cool an apparently equilibrated Mott insulator of rubidium atoms to 350 pK.	Rubidium	151-159	spindlin 1	Homo sapiens	4-8	
27805105-1	1996	We present quantum scattering calculations for the collisional relaxation rate coefficient of spin-polarized 87Rb(f = 2,m = 2) atoms, which determines the loss rate of cold Rb atoms from a magnetic trap.	Rubidium	111-113	spindlin 1	Homo sapiens	94-98	
27805105-7	1996	After testing the effect of systematically modifying the short-range form of the molecular potentials over a reasonable range, and introducing our best estimate of the second-order spin-orbit interaction, we estimate that in the low temperature limit the rate coefficient for loss of Rb atoms from the f = 2,m = 2 state is between 0.4 x 10-15 cm3/s and 2.4 x 10-15 cm3/s (where this number counts two atoms lost per collision).	Rubidium	284-286	spindlin 1	Homo sapiens	181-185	
35209344-0	2022	Enhancement of spin noise spectroscopy of rubidium atomic ensemble by using the polarization squeezed light.	Rubidium	42-50	spindlin 1	Homo sapiens	15-19	
35209344-1	2022	We measured the spin noise spectroscopy (SNS) of rubidium atomic ensemble with two different kinds of atomic vapor cells (filled with buffer gas or coated with paraffin film on the inner wall) and demonstrated the enhancement of the signal-to-noise ratio (SNR) by using polarization squeezed state (PSS) of 795-nm light field with Stokes operator S Lambda 2 squeezed.	Rubidium	49-57	spindlin 1	Homo sapiens	16-20	
22146399-0	2011	Spin waves and magnetic exchange interactions in insulating Rb(0.89)Fe(1.58)Se(2).	Rubidium	60-62	spindlin 1	Homo sapiens	0-4	
20366208-4	2009	We demonstrate the thermometry using ultracold rubidium atoms, and suggest that interesting spin physics can be realized in this system.	Rubidium	47-55	spindlin 1	Homo sapiens	92-96	
35426725-0	2022	Spin-Conservation Propensity Rule for Three-Body Recombination of Ultracold Rb Atoms.	Rubidium	76-78	spindlin 1	Homo sapiens	0-4	
35209641-5	2022	During the experiments, we eliminated the errors caused by the temperature and pumping power, and considered different isotope spin exchange collisions in naturally abundant Rb during the data analysis to improve the fitting accuracy.	Rubidium	174-176	spindlin 1	Homo sapiens	127-131	
33412075-1	2020	We theoretically propose and experimentally demonstrate the use of motional sidebands in a trapped ensemble of ^{87}Rb atoms to engineer tunable long-range XXZ spin models.	Rubidium	116-118	spindlin 1	Homo sapiens	160-164