Performance of ESPRESSO's high resolution 4x2 binning for characterizing intervening absorbers towards faint quasars

TL;DR

The paper evaluates ESPRESSO's new high-resolution 4x2 binning mode, demonstrating its effectiveness in characterizing faint quasar absorbers with higher resolution and efficiency compared to UVES.

Contribution

This study validates the ESPRESSO HR42 mode's capability to achieve higher resolving power and better spectral detail for faint targets than traditional UVES observations.

Findings

ESPRESSO HR42 mode achieves R~137,000 resolution.

It can detect narrower absorption components than UVES.

It requires less exposure time for similar spectral quality.

Abstract

As of October 2021 (Period 108), the European Southern Observatory (ESO) offers a new mode of the ESPRESSO spectrograph designed to use the High Resolution grating with 4x2 binning (spatial by spectral; HR42 mode) with the specific objective of observing faint targets with a single Unit Telescope at Paranal. We validated the new HR42 mode using four hours of on-target observations of the quasar J0003-2603, known to host an intervening metal-poor absorber along the line of sight. The capabilities of the ESPRESSO HR42 mode (resolving power R~137 000) were evaluated by comparing to a UVES spectrum of the same target with a similar integration time but lower resolving power (R~48 000). For both data sets we tested the ability to decompose the velocity profile of the intervening absorber using Voigt profile fitting and extracted the total column densities of CIV, NI, SiII, AlII, FeII, and NiII. With ~3x the resolving power and ~2x lower S/N for a nearly equivalent exposure time, the ESPRESSO data is able to just as accurately characterize the individual components of the absorption lines as the comparison UVES data, but has the added bonus of identifying narrower components not detected by UVES. For UVES to provide similar spectral resolution (R>100 000; 0.3'' slit) and the broad wavelength coverage of ESPRESSO, the Exposure Time Calculator (ETC) supplied by ESO estimates 8 hrs of exposure time spread over two settings; requiring double the time investment than that of ESPRESSO's HR42 mode whilst not properly sampling the UVES spectral resolution element. Thus ESPRESSO's HR42 mode offers nearly triple the resolving power of UVES (0.8'' slit to match typical ambient conditions at Paranal) and provides more accurate characterization of quasar absorption features for an equivalent exposure time.