Asteroid | Date(UT) | Miss Distance | Velocity (km/s) | Diameter (m) |
2018 NW1 | 2018-Jul-14 | 9.9 LD | 9.2 | 30 |
2018 ND4 | 2018-Jul-14 | 12.7 LD | 11.9 | 35 |
2018 OM | 2018-Jul-15 | 12.2 LD | 24.4 | 66 |
2018 NV2 | 2018-Jul-15 | 10.1 LD | 15.1 | 41 |
2018 NM | 2018-Jul-17 | 1.4 LD | 6.7 | 19 |
2018 NL4 | 2018-Jul-18 | 10.4 LD | 12.7 | 53 |
2018 NQ1 | 2018-Jul-19 | 16.4 LD | 6 | 32 |
2018 OF | 2018-Jul-19 | 14.7 LD | 14 | 50 |
2018 NE1 | 2018-Jul-21 | 10.1 LD | 14.2 | 78 |
2018 NF4 | 2018-Jul-21 | 18.8 LD | 12.8 | 114 |
2018 OL | 2018-Jul-22 | 11.5 LD | 16.1 | 58 |
2018 NR1 | 2018-Jul-27 | 17.1 LD | 5.1 | 37 |
2018 LQ2 | 2018-Aug-27 | 9.4 LD | 1.5 | 39 |
2016 GK135 | 2018-Aug-28 | 16.8 LD | 2.8 | 9 |
2016 NF23 | 2018-Aug-29 | 13.3 LD | 9 | 93 |
1998 SD9 | 2018-Aug-29 | 4.2 LD | 10.7 | 51 |
2018 DE1 | 2018-Aug-30 | 15.2 LD | 6.5 | 28 |
2001 RQ17 | 2018-Sep-02 | 19.3 LD | 8.3 | 107 |
2015 FP118 | 2018-Sep-03 | 12.3 LD | 9.8 | 490 |
Notes: LD means "Lunar Distance." 1 LD = 384,401 km, the distance between Earth and the Moon. 1 LD also equals 0.00256 AU. MAG is the visual magnitude of the asteroid on the date of closest approach. | Cosmic Rays in the Atmosphere |
Readers, thank you for your patience while we continue to develop this new section of Spaceweather.com. We've been working to streamline our data reduction, allowing us to post results from balloon flights much more rapidly, and we have developed a new data product, shown here:
This plot displays radiation measurements not only in the stratosphere, but also at aviation altitudes. Dose rates are expessed as multiples of sea level. For instance, we see that boarding a plane that flies at 25,000 feet exposes passengers to dose rates ~10x higher than sea level. At 40,000 feet, the multiplier is closer to 50x. These measurements are made by our usual cosmic ray payload as it passes through aviation altitudes en route to the stratosphere over California.
What is this all about? Approximately once a week, Spaceweather.com and the students of Earth to Sky Calculus fly space weather balloons to the stratosphere over California. These balloons are equipped with radiation sensors that detect cosmic rays, a surprisingly "down to Earth" form of space weather. Cosmic rays can seed clouds, trigger lightning, and penetrate commercial airplanes. Furthermore, there are studies ( #1, #2, #3, #4) linking cosmic rays with cardiac arrhythmias and sudden cardiac death in the general population. Our latest measurements show that cosmic rays are intensifying, with an increase of more than 13% since 2015:
Why are cosmic rays intensifying? The main reason is the sun. Solar storm clouds such as coronal mass ejections (CMEs) sweep aside cosmic rays when they pass by Earth. During Solar Maximum, CMEs are abundant and cosmic rays are held at bay. Now, however, the solar cycle is swinging toward Solar Minimum, allowing cosmic rays to return. Another reason could be the weakening of Earth's magnetic field, which helps protect us from deep-space radiation.
The radiation sensors onboard our helium balloons detect X-rays and gamma-rays in the energy range 10 keV to 20 MeV. These energies span the range of medical X-ray machines and airport security scanners.
The data points in the graph above correspond to the peak of the Reneger-Pfotzer maximum, which lies about 67,000 feet above central California. When cosmic rays crash into Earth's atmosphere, they produce a spray of secondary particles that is most intense at the entrance to the stratosphere. Physicists Eric Reneger and Georg Pfotzer discovered the maximum using balloons in the 1930s and it is what we are measuring today.
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