The Warp drive is a type of propulsion system capable of
driving ships at speeds higher than the speed of light. According to
science fiction literature, such speeds are possible by a mechanism
capable of generating a distortion in the spacetime such that it is
folded, or "warped". If a spaceship possesses a device capable of
generating around herself such a distortion, or warp field, she is
then able to reach speeds faster than light, making it possible
interstellar trips.
Until recently, warp drive was only associated with science fiction,
but in 1994 Miguel Alcubierre presented a paper which theoretically
described a physical mechanism where a spaceship could be propelled
by a method similar to what is described in science fiction books.
The most interesting aspect about Alcubierre's method was the fact
that it was entirely based on known physics, on the theory of
general relativity, and his proposal included a warp
metric. Alcubierre's paper can be considered a scientific
landmark in the sense that it effectively opened the way for
discussing warp drive propulsion in physical terms, since from that
moment on warp drive was no longer only a fiction, but also became
a scientific issue.
Inspired by Alcubierre's proposal, other physicists started to research
and discuss his ideas, modifying the original proposal and advancing
new ones. Then, as the scientific literature below can testify, a new
branch of research in physics was born: warp drive theory. It is
still small, but given the interest already generated, it will certainly
grow in time.
Warp drive is not yet a reality, and as the papers below state by
themselves, physicists are not even sure if such a thing as a warp
drive propelled starship can ever be constructed. There are many
formidable theoretical obstacles, which, perhaps, may prove
insurmountable. But, perhaps not. Physicists have not yet reached a
conclusion. In any case, one thing is certain: if we find out that
the known physics does not prohibit faster than light travel via warp
drive, then building a ship with warp drive propulsion capabilities
becomes a technological problem. It may take centuries to do so, but
perhaps we can in time build the necessary technology. The way is now
open for serious research.
This page aims at bringing together the still rather small scientific
literature on this subject, such that one can learn what has been done
on warp drive theory. Its primary audience are professional physicists,
and my aim at creating this page was at providing a useful reference
collection which could perhaps be a starting point for the visiting
professional physicist's own contributions to the subject. It is also
my hope that the interested layman may find this page informative. The papers
listed below represent the contributions made so far to the subject,
which, due to its small size and age, may well encompass almost
everything that has been published until now. Of course, there are other
methods proposed for interstellar trips within general relativity, such
as wormholes, but this page attempts to focus only on warp drive theory.
Thus, papers on other related subjects are listed here only if I am
convinced that they bring results and/or discussions relevant to warp
drive theory. I have also added at the end of this page some links
which show how seriously interstellar propulsion concepts, including
warp drive, are taken by some organizations.
If you think that there is something that should appear here, perhaps a
particular paper that I missed, or an important topic that I did not
mention, please e-mail me at the following address (spelled for
protection against spam robots): mbr at if dot ufrj dot br. But,
notice that this is a scientific page, and, therefore, although
fascinating, I will not be providing links to topics or discussions on
science fiction literature issues.
The paper that started it all
The warp drive: hyper-fast travel within general relativity
Miguel Alcubierre e-print:
gr-qc/0009013; LaTeX;
dvi;
postscript;
eps figure;
pdf;
Classical and Quantum Gravity, vol. 11, L73-L77, (1994)
The follow-up papers *
Photon propagation in a stationary warp drive space-time
Claes R. Cramer e-print:
gr-qc/9510018, (1995)
Some thoughts on the Implications of Faster-Than-Light
Interstellar Space Travel
I.A. Crawford Quarterly Journal of the Royal Astronomical Society, vol. 36,
205-218, (1995)
Physical and Cosmological Implications of a Possible Class
of Particles Able to Travel Faster than Light
Luis Gonzalez-Mestres e-print: hep-ph/9610474;
Contribution to the 28th International Conference on High Energy Physics, Warsaw
(Poland), (1996)
Warp drive and causality
Allen E. Everett
pdf; Physical Review D, vol. 53, 7365-7368, (1996)
A Superluminal Subway: The Krasnikov Tube
Allen E. Everett & Thomas A. Roman e-print:
gr-qc/9702049;
postscript;
pdf;
Physical Review D, vol. 56, 2100-2108, (1997)
Quantum effects in the Alcubierre warp drive spacetime
William A. Hiscock e-print: gr-qc/9707024;
postscript;
pdf;
Classical and Quantum Gravity, vol. 14, L183-L188 (1997)
The unphysical nature of "Warp Drive"
Michael J. Pfenning & L.H. Ford e-print: gr-qc/9702026;
postscript;
pdf;
Classical and Quantum Gravity, vol. 14, 1743-1751,
(1997)
On the Possibility of a Propulsion Drive Creation Through a
Local Manipulation of Spacetime Geometry
Vesselin Petkov e-print: physics/9805028;
Presented at the 34th AIAA/ASME/SAE/ASEE Joint Propulsion Conference,
(1998)
`Operational' energy conditions
Adam D. Helfer pdf;
postscript; Classical and Quantum Gravity, vol. 15, 1169-1183,
(1998)
No warp drive
D. H. Coule pdf;
postscript;
Classical and Quantum Gravity, vol. 15, 2523-2527, (1998)
Quantum Inequality Restrictions on Negative Energy Densities
in Curved Spacetimes
Michael John Pfenning e-print: gr-qc/9805037;
Doctoral Dissertation, (1998)
Hyperfast Interstellar Travel in General Relativity
S. V. Krasnikov e-print: gr-qc/9511068;
postscript;
pdf;
Physical Review D, vol. 57, 4760, (1998)
Superluminal travel requires negative energies
Ken D. Olum e-print: gr-qc/9805003;
postscript;
pdf;
Physical Review Letters, vol. 81, 3567-3570, (1998)
Hyper-fast travel without negative energy
Eric Baird e-print: gr-qc/9903068;
(1999)
Warp drives, wavefronts and superluminality
Eric Baird e-print: physics/9904019;
(1999)
A traversable wormhole
S. Krasnikov e-print: gr-qc/9909016;
(1999)
Speed Limits in General Relativity
Robert J. Low e-print: gr-qc/9812067;
postscript;
pdf;
Classical and Quantum Gravity, vol. 16, 543-549, (1999)
Null geodesics in the Alcubierre warp drive spacetime: the
view from the bridge
Chad Clark, William A. Hiscock & Shane L. Larson e-print: gr-qc/9907019;
postscript;
pdf;
Classical and Quantum Gravity, vol. 16, 3965-3972, (1999)
A `warp drive' with more reasonable total energy
Chris Van Den Broeck e-print: gr-qc/9905084;
postscript;
pdf;
Classical and Quantum Gravity, vol. 16, 3973-3979, (1999)
On the warp drive space-time
Pedro F. Gonzalez-Diaz e-print: gr-qc/9907026;
postscript;
pdf;
Physical Review D, vol. 62, 44005-44012, (2000)
On the (im)possibility of warp bubbles
Chris Van Den Broeck e-print: gr-qc/9906050;
Summary of talk delivered at STAIF-2000, (2000)
Reduced Total Energy Requirements for a Modified Alcubierre
Warp Drive Spacetime
F. Loup, D. Waite & E. Halerewicz Jr e-print: gr-qc/0107097,
(2001)
Warp Drive With Zero Expansion
Jose Natario e-print: gr-qc/0110086;
postscript;
pdf;
Classical and Quantum Gravity, vol. 19, 1157-1166, (2002)
A Causally Connected Superluminal Warp Drive Spacetime
F. Loup, R. Held, D. Waite, E. Halerewicz, Jr., M. Stabno, M.
Kuntzman & R. Sims e-print: gr-qc/0202021,
(2002)
Weak Energy Condition Violation and Superluminal Travel
Francisco Lobo & Paulo Crawford e-print: gr-qc/0204038,
(2002)
On the Problems of Hazardous Matter and Radiation at Faster
than Light Speeds in the Warp Drive Space-Time
C.B. Hart, R. Held, P.K. Hoiland, S. Jenks, F. Loup, D. Martins, J.
Nyman, J.P. Pertierra, P.A. Santos, M.A. Shore, R. Sims, M. Stabno &
T.O.M. Teage e-print: gr-qc/0207109,
(2002)
* The dates indicated within parenthesis refer to the last known
uploaded or published version of the paper.