# Simon Kristensen

## Diophantine exponents for mildly restricted approximation

Research output: Working paperResearch

### Standard

Århus : Department of Mathematical Sciences , University of Aarhus, 2007.

Research output: Working paperResearch

### Harvard

Bugeaud, Y & Kristensen, S 2007 'Diophantine exponents for mildly restricted approximation' Department of Mathematical Sciences , University of Aarhus, Århus.

### APA

Bugeaud, Y., & Kristensen, S. (2007). Diophantine exponents for mildly restricted approximation. Århus: Department of Mathematical Sciences , University of Aarhus.

### CBE

Bugeaud Y, Kristensen S. 2007. Diophantine exponents for mildly restricted approximation. Århus: Department of Mathematical Sciences , University of Aarhus.

### MLA

Bugeaud, Yann and Simon Kristensen Diophantine exponents for mildly restricted approximation. Århus: Department of Mathematical Sciences , University of Aarhus. 2007., 21 p.

### Vancouver

Bugeaud Y, Kristensen S. Diophantine exponents for mildly restricted approximation. Århus: Department of Mathematical Sciences , University of Aarhus. 2007.

### Author

Bugeaud, Yann ; Kristensen, Simon. / Diophantine exponents for mildly restricted approximation. Århus : Department of Mathematical Sciences , University of Aarhus, 2007.

### Bibtex

@techreport{8387b030d88511dcbc43000ea68e967b,
title = "Diophantine exponents for mildly restricted approximation",
abstract = "We are studying the Diophantine exponent defined for integers and a vector by letting , where is the scalar product and denotes the distance to the nearest integer and is the generalised cone consisting of all vectors with the height attained among the first coordinates. We show that the exponent takes all values in the interval , with the value attained for almost all . We calculate the Hausdorff dimension of the set of vectors with for . Finally, letting denote the exponent obtained by removing the restrictions on , we show that there are vectors for which the gaps in the increasing sequence can be chosen to be arbitrary.",
author = "Yann Bugeaud and Simon Kristensen",
year = "2007",
language = "English",
publisher = "Department of Mathematical Sciences , University of Aarhus",
type = "WorkingPaper",
institution = "Department of Mathematical Sciences , University of Aarhus",

}

### RIS

TY - UNPB

T1 - Diophantine exponents for mildly restricted approximation

AU - Bugeaud, Yann

AU - Kristensen, Simon

PY - 2007

Y1 - 2007

N2 - We are studying the Diophantine exponent defined for integers and a vector by letting , where is the scalar product and denotes the distance to the nearest integer and is the generalised cone consisting of all vectors with the height attained among the first coordinates. We show that the exponent takes all values in the interval , with the value attained for almost all . We calculate the Hausdorff dimension of the set of vectors with for . Finally, letting denote the exponent obtained by removing the restrictions on , we show that there are vectors for which the gaps in the increasing sequence can be chosen to be arbitrary.

AB - We are studying the Diophantine exponent defined for integers and a vector by letting , where is the scalar product and denotes the distance to the nearest integer and is the generalised cone consisting of all vectors with the height attained among the first coordinates. We show that the exponent takes all values in the interval , with the value attained for almost all . We calculate the Hausdorff dimension of the set of vectors with for . Finally, letting denote the exponent obtained by removing the restrictions on , we show that there are vectors for which the gaps in the increasing sequence can be chosen to be arbitrary.

M3 - Working paper

BT - Diophantine exponents for mildly restricted approximation

PB - Department of Mathematical Sciences , University of Aarhus

CY - Århus

ER -