TIFR Zero-Pressure balloon program crosses a milestone

TL;DR

The TIFR Zero-Pressure balloon program has achieved over 500 flights, advancing scientific research and technology development in atmospheric and space sciences through stratospheric balloon experiments.

Contribution

This paper reports recent advancements and a comprehensive overview of TIFR's extensive zero-pressure balloon program, highlighting its scientific and technological milestones.

Findings

Over 500 balloon flights conducted since 2018.

Advancements in balloon technology and experimental methods.

Successful deployment of balloons for diverse scientific studies.

Abstract

High altitude scientific balloons offer unique opportunities to carry scientific payloads to stratospheric altitudes at a cost several orders of magnitude lower than corresponding satellite missions. Balloon-borne payloads are easy to implement allowing quick experiment turn-around times and inexpensive reflights can be conducted as payload is most of the times recovered. In addition, in-situ and high resolution spatial and temporal measurements of the earth's atmosphere can be made that might not be feasible with satellites. It is also used as a testbed to prove technologies for future satellite missions. Scientific ballooning was initiated at the Tata Institute of Fundamental Research (TIFR) in the year 1945 when scientific instruments were flown to stratospheric altitudes using a cluster of weather balloons for cosmic ray research. The need to have balloons float at constant stratospheric altitudes for astronomy studies led to the initiation of work on design and fabrication of Zero-Pressure polyethylene (ZP) balloons at TIFR in 1956. Since then several ZP balloon flights were conducted for studies in astronomy, atmospheric science, astrobiology, balloon technology and space technology development, leading to several important scientific results. In the year 2018, TIFR balloon program crossed an important milestone of conducting more than 500 ZP balloon flights. This paper presents recent advancements made in some areas of scientific ballooning and the details of balloon experiments conducted in the past two decades.