Deformable apparatus

We claim: 1. A hand-portable radio terminal comprising: a deformable antenna disposed in the radio terminal and configured to operate in a first antenna physical configuration and configured to operate in a second antenna physical configuration that is deformed relative to the first antenna physical configuration; and magnetic material located in close proximity to the deformable antenna and configured to have a first magnetic material physical configuration when the deformable antenna is in its first antenna physical configuration and configured to have a second magnetic material physical configuration that is deformed relative to the first magnetic material physical configuration when the deformable antenna is in its second antenna physical configuration, wherein the magnetic material when in its first magnetic material physical configuration has a first relative magnetic permeability and when in its second magnetic material physical configuration has a second relative magnetic permeability, wherein the hand-portable radio terminal is configurable to have a first physical configuration and a second, different, physical configuration wherein when the configurable hand-portable radio terminal is in the first physical configuration the deformable antenna and the magnetic material are both in their respective first antenna and first magnetic material configurations and when the configurable hand-portable radio terminal is in the second physical configuration the deformable antenna and the magnetic material are both in their respective second antenna and second magnetic material configurations. 2. An hand-portable radio terminal as claimed in claim 1 , wherein the change in relative magnetic permeability of the magnetic material between the first and second magnetic material configurations tunes the deformable antenna. 3. The hand-portable radio terminal as claimed in claim 1 , wherein the magnetic material comprises nanomagnetic particles in a supporting, deformable matrix. 4. The hand-portable radio terminal as claimed in claim 3 , wherein the nanomagnetic particles form an unordered distribution of nanomagnetic particles within the deformable matrix. 5. The hand-portable radio terminal as claimed in claim 3 wherein the nanomagnetic particles form an ordered distribution of nanomagnetic particles within the deformable matrix. 6. The hand-portable radio terminal as claimed in claim 5 , wherein the ordered distribution includes elongate structures having a length to width aspect ratio greater than ten. 7. The hand-portable radio terminal as claimed in claim 6 , wherein each elongate structure has a length of 1 mm or greater. 8. The hand-portable radio terminal as claimed in claim 5 , wherein an ordered distribution comprises electrospun fibers comprising nanomagnetic particles. 9. The hand-portable radio terminal as claimed in claim 8 , wherein the ordered distribution additionally comprises ceramic filler nanoparticles. 10. The hand-portable radio terminal as claimed in claim 1 , wherein the magnetic material comprises a set of standing wires and the space between the wires is filled with polymer. 11. The hand-portable radio terminal as claimed in claim 10 , wherein the hand-portable radio terminal is configured to apply a shear force perpendicular to the standing wires. 12. The hand-portable radio terminal as claimed in claim 1 , wherein the magnetic material comprises nanomagnetic particles that are ferromagnetic or superparamagnetic. 13. The hand-portable radio terminal as claimed in claim 1 , wherein the magnetic material comprises nanomagnetic particles that have a minimum dimension of less than 10 nm. 14. The hand-portable radio terminal as claimed in claim 1 , wherein the relative magnetic permeability of the magnetic material changes between the first and the second relative magnetic permeability due to the magnetic material changing between the respective first and second magnetic material configurations and not due to any applied electric or magnetic field. 15. An apparatus comprising: a deformable antenna configured to operate in a first antenna physical configuration and configured to operate in a second antenna physical configuration that is deformed relative to the first antenna physical configuration; and magnetic material located in close proximity to the deformable antenna and configured to have a first magnetic material physical configuration when the deformable antenna is in its first antenna physical configuration and configured to have a second magnetic material physical configuration that is deformed relative to the first magnetic material physical configuration when the deformable antenna is in its second antenna physical configuration, wherein the magnetic material when in its first magnetic material physical configuration has a first magnetic permeability and when in its second magnetic material physical configuration has a second magnetic permeability, wherein a change in resonant frequency caused by deformation of the deformable antenna between the first and second antenna physical configurations is compensated by the simultaneous deformation of the magnetic material between the first and second magnetic material physical configurations. 16. The apparatus as claimed in claim 15 , wherein the antenna is embedded in the magnetic material. 17. A method of manufacturing an antenna arrangement comprising a deformable antenna and associated magnetic material, the method comprising: obtaining nanomagnetic particles; mixing nanomagnetic particles with polymer; creating ordered nano structures from the nanomagnetic particles to form a magnetic material; and disposing the magnetic material within or on a deformable hand-portable radio terminal in close proximity to a deformable antenna, wherein: the hand-portable radio terminal is deformable between a first physical configuration and a second, different, physical configuration; the deformable antenna is configured to operate in a first antenna physical configuration when the hand-portable radio terminal is in the first physical configuration, and configured to operate in a second antenna physical configuration that is deformed relative to the first antenna physical configuration when the hand-portable radio terminal is in the second physical configuration; the magnetic material is configured to have a first magnetic material physical configuration when the hand-portable radio terminal is in the first physical configuration, and configured to have a second magnetic material physical configuration that is deformed relative to the first magnetic material physical configuration when the hand-portable radio terminal is in the second physical configuration; and the magnetic material has a first magnetic permeability when in the first magnetic material physical configuration, and has a second magnetic permeability when in the second magnetic material physical configuration. 18. A method as claimed in claim 17 , wherein ordered nanostructures are created by electrospinning. 19. A method as claimed in claim 17 , further comprising adding ceramic filler nanoparticles. 20. A method as claimed in claim 17 , wherein ordered nano structures are created in the presence of a magnetic field. 21. A method as claimed in claim 20 , wherein each ordered nano structure has a length of 1 mm or greater.