In this reporting period, the progress of the research proceeded according to plan, with the addition of two related topics.
Aim 1: Stage 1 – passive many-body microscopic information engine – manuscript is in preparation. We describe the experimental and numerical implementation. We discover and prove analytically, experimentally, and numerically a new universal form for the extracted work per measurement when recast as a function of the probability of being able to move the wall.
Stage 2 – active, many-body microscopic information engine – we are currently performing the experiments, numeric studies show that active colloids do not follow the universal behavior found in stage 1.
Aim 2: Part 1 – many-body active macroscopic Szilard engine (see figure) – manuscript under review and deposited in the arxiv. We realize experimentally a macroscopic many-particle Szilard engine that consists of active particles and uses it to lift a mass against gravity. We show that the extractable work per cycle increases when the raised weight is changed more gradually during the process. Interestingly, we find that the ideal extractable work grows with the number of particles due to giant number fluctuations. This is in contrast to the calculated behavior of a similar engine operating on thermal particles.
Part 2 - We performed a macroscopic experiment using bristle robots and compared these results to the microscopic engine of aim 1, verifying the importance of how energy is pumped into the system.
Extension 1: Related to Aims 1 and 2, ongoing work, combining experiments, simulation, and numerical calculations. Algorithm to design the optimal work extraction from a piston-like engine given position probability distribution taken from experiments.
Extension 2: Related to Aims 1 and 2, ongoing work, combining experiments, simulation, and numerical calculations. Study the effect of clustering on active matter information engines using Kilbots – programable robots.
Aim 3: We have followed exactly the proposed research and demonstrated that injected information can result in the rectification and of a random multi-robot system and result in cargo transfer. We showed that there is a compromise between accuracy and speed of the cargo transfer. The manuscript is in preparation.
Extension 3: Related to aims 2 and 3. A better understanding of temperature in active systems. The first manuscript was published in PRX in which we demonstrate a non-linear fluctuation-dissipation relation that tests for Markovianity. The second manuscript is in preparation.
Extension 4: Related to aim 3. How swarms of simple robots can mimic ants to find food and other targets faster. A manuscript describing environment-assisted search is under review and published in the arxiv.