The vehicle is effectively "pinched" forward. Ram accelerator pioneer Carl Knowlen likens the mechanism to pinching a watermelon seed to make it fly -- the slimy surface of the seed reduces the frictional forces against thumb and fingertip; the seed speeds away much faster than the fingertips come together. A ram accelerator's internal detonation waves supply the "pinch". This means a vehicle can be accelerated to a velocity much greater than than the velocity of the detonation waves that strike the boat tail.²

Further reading

Extensive online bibliography on the RAMAC here: "The Ram Accelerator: Review of Experimental Research Activities in the U.S.", A Bruckner, C Knowlen, in Hypervelocity Launchers, Friedrich Seiler, Ozer Igra, eds., Springer pp. 79-109. ISBN 978-3-319-26016-7 (print), 978-3-319-26018-1 (ebook). https://doi.org/10.1007/978-3-319-26018-1

The ram accelerator (sometimes, "ram cannon") is a projectile space launch concept based on exploiting the scramjet concept in a tube.¹ Instead of reacting against a nozzle, the expanding gases react against a "boat tail", effectively turning the nozzle idea inside-out. In a scramjet engine, the oxidizer (oxygen) is in the atmosphere, the air it scoops up as the vehicle flies forward; the fuel is carried onboard. In a ram accelerator, the fuel isn't carried; both the fuel and the oxidizer are in the tube. The vehicle's fuel+oxidizer supply is always ahead of it, at least for the very short time it's in the tube.²

The vehicle is effectively "pinched" forward. Ram accelerator pioneer Carl Knowlen likens the mechanism to pinching a watermelon seed to make it fly -- the slimy surface of the seed reduces the frictional forces against thumb and fingertip; the seed speeds away much faster than the fingertips come together. A ram accelerator's internal detonation waves supply the "pinch". This means a vehicle can be accelerated to a velocity much greater than than the velocity of the detonation waves that strike the boat tail.⁴

The ram accelerator (sometimes, "ram cannon") is a projectile space launch concept based on exploiting the ramjet concept in a tube, and with detonation waves rather than mere combusion. Instead of reacting against a nozzle, the expanding gases react against a "boat tail", effectively turning the nozzle idea inside-out.

http://www.ramaccelerator.org/home/sites/default/files/wiley%20scramjet-scra.PNG

The vehicle is effectively "pinched" forward. Ram accelerator pioneer Carl Knowlen likens the mechanism to pinching a watermelon seed to make it fly -- the slimy surface of the seed means the seed escapes the frictional forces against thumb and fingertip; the seed speeds away much faster than the fingertips come together. A ram accelerator's internal detonation waves supply the "pinch". This means a vehicle can be accelerated to a velocity much greater than than the velocity of the detonation waves that strike the boat tail. ⁶

The ram accelerator (sometimes, "ram cannon") is a projectile space launch concept based on exploiting the ramjet concept in a tube, and with detonation waves rather than mere combusion. Instead of reacting against a nozzle, the expanding gases react against a "boat tail", effectively turning the nozzle idea inside-out. The vehicle is effectively "pinched" forward. Ram accelerator pioneer Carl Knowlen likens the mechanism to pinching a watermelon seed to make it fly -- the slimy surface of the seed means the seed escapes the frictional forces against thumb and fingertip; the seed speeds away much faster than the fingertips come together. A ram accelerator's internal detonation waves supply the "pinch". This means a vehicle can be accelerated to a velocity much greater than than the velocity of the detonation waves that strike the boat tail. ⁸

The ram accelerator (sometimes, "ram cannon") is a projectile space launch concept based on exploiting the ramjet concept in a tube, and with detonation waves rather than mere combusion. Rather than reacting against a nozzle, the gases react against a "boat tail", effectively turning the nozzle idea inside-out. The vehicle is effectively "pinched" forward. Ram accelerator pioneer Carl Knowlen likens the mechanism to pinching a watermelon seed -- the slimy surface of the seed means the seed escaped the frictional forces against thumb and fingertip; the seed speeds away much faster than the fingertips coming together. This means a ram accelerator vehicle can be accelerated to a velocity much greater than than the velocity of the detonation waves that strike the boat tail. ¹⁰

http://www.ramaccelerator.org/home/sites/default/files/hp-testsection-pic.jpg | The ram accelerator facility at the University of Washington

The ram accelerator (sometimes, "ram cannon") is a projectile space launch concept based on exploiting the ramjet concept in a tube, around the vehicle rather than inside it.¹¹

http://www.ramaccelerator.org/home/sites/default/files/wiley%20operation%20sequence.PNG

References

¹ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑

² It's carrying fuel and oxidizer that make rockets to space so big and multi-staged. ⇑

³ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑

⁴ Except for for implosion-tube concepts, other gas-based projectile launch schemes have a speed limit related to the limit of the speed of sound in the gases used for propulsion. ⇑

⁵ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑

⁶ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑

⁷ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑

⁸ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑

⁹ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑

¹⁰ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑

¹¹ "Gasdynamic Operation of Baffled Tube Ram Accelerator in Highly Energetic Mixtures", A.J. Higgins, C. Knowlen, C.B. Kiyanda, Submitted to: 20th International Colloquium on the Dynamics of Explosions and Reactive Systems. http://www.galcit.caltech.edu/~jeshep/icders/cd-rom/EXTABS/178_20TH.PDF ⇑